WORKPLACE HEALTH REGULATIONS

Effective November 1, 1986

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(1) These regulations may be cited as the Workplace Health Regulations.

(2) In these regulations, where a unit of measurement is given in metric (System International d'Unites - SI) the metric unit is binding and if an Imperial unit appears in parentheses after it the Imperial unit is given only as an approximate equivalent for the assistance of the reader.

ILLUMINATION

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(1) Proper illumination shall be provided and maintained in accordance with these regulations in every area of a workplace used by employees or other people.

(2) An officer may set in writing a standard in respect to the level and quality of illumination, including emergency lighting, standby lighting, and exterior lighting, in any workplace.

(3) All lighting systems shall be designed to allow for light depreciation in service in order that the lighting level shall not diminish in service below the acceptable minimums required in these regulations.

(4) The lighting source shall be shielded to control discomfort glare and the transverse shielding angle shall be not less than 12 degrees; the lighting source shall supply an upward component of not less than 10 per cent, or auxiliary units shall be provided that will direct a comparable amount of light upward, unless the board directs otherwise.

(5) The board may formulate rules in cases where formulas have not been provided by this regulation or where special circumstances render desirable an alteration to or modifications of the regulations.

(6) Every employer shall maintain in good working order and in a clean condition any lighting fixture, and an officer may direct an employer or owner to clean, repair, relamp, or otherwise maintain any lighting fixture at any time.

(7) The equipment, machines, or work space allotted to the worker shall be so placed that the worker will not have to face windows or other sources of light of high brightness in close proximity; where windows are a source of glare they shall be adequately shaded or shielded to protect workers' vision.

(8) So far as reasonably practicable, arrangements shall be made by suitable screening or placing or other effective method, to prevent discomfort or injury by the reflection of light from shiny or mirror-like surfaces into the eyes of the workers.

(9) Adequate measures shall be taken, so far as reasonably practicable, to prevent the formation of shadows which cause eye fatigue or risk of accident to any worker.

(10) The minimum level of illumination to be maintained in service in workplaces shall not be less than the values stated in Table 1 below, unless an officer directs otherwise:

TABLE 1-Seeing Tasks
  Lux (Footcandles) in Service On Task or 30” Above Floor
(a)Finest precision work
Covering:
Finest Detail,
Poor Contrasts,
Long periods of time,
i.e. Extra fine assembly, precision grading,
Extra fine finishing and inspection.
2,153 – 10,764 lx. (200 – 1000 footcandles)
(b)Precision work
Covering:
Fine detail,
Fair contrast,
Lengthy period of time,
i.e. Fine assembly, high speed work,
Fine finishing and inspection.
1076 lx. (100 footcandles)
(c)Accurate seeing tasks – continuous
Covering
Fine detail,
Moderate contrasts,
Lengthy periods of time,
i.e. Ordinary bench work and assembly,
Machine shop work,
Medium finishing of parts,
Garment mfg., laundry – spotting & repairs,
Food processing,
Inspection areas,
Printing,
Laboratories
538 lx. (50 footcandles)
(d)Ordinary seeing tasks
Covering:
Moderately fine detail,
Normal contrasts,
Intermittent periods of time,
i.e. Automatic machine operation areas,
Rough grinding, garage work areas,
Continuous processes, packing & shipping areas,
Steel fabrication, welding,
Lunchrooms,
Washrooms,
Foundries,
Sawmills - shingle mills - plywood plants.
323 lx. (30 footcandles)
(e) Casual seeing tasks
i.e. Restrooms,
Stairways, active storage.
(Active storage buildings exempt from provision of shielding)
108 lx. (10 footcandles)
(f) Simple seeing tasks (exempt from provion of shielding)
i.e. Hallways, Passageways, InactiveStorage.
54 lx. (5 footcandles)

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(1) The brightness ratios in working areas shall not exceed those stipulated in Table 2, unless an officer directs otherwise:
Table 2. Brightness Ratios
5 to 1 between tasks and adjacent surroundings.
20 to 1 between tasks and more remote surfaces.
40 to 1 between luminaires(or sky) and surfaces adjacent to them.
80 to 1 anywhere within the environment of the worker.

(2) Reflectance values in industrial working areas shall conform to Table 3 below unless an officer directs otherwise.

Table 3. Reflectance Values
  Reflection Factor (%)
Surface Not Less Than Not More Than
Ceiling 50 90
Walls 40 60
Surface at task level 25 45
Machine and equipment 25 45
Floors 10 20

(3) The minimum level of illumination to be maintained in service in offices and shops shall not be less than the values stated in Table 4 below, unless an officer directs otherwise:

Table 4. Seeing Tasks
  Lux (Footcandles) in Service on Task or 30" AboveFloor
Verydifficult

i.e. Cartography, designing,
drafting, plan reading, time tables
2153 lx.
(200 footcandles)
Difficult

i.e. Regular office work involving: operation
of business machines, stenography, accounting,
typing, active filing, clerking, billing, continuous
reading and writing tasks.
Store check-out counters.
1076 lx.
(100 footcandles)
Ordinary

i.e. Conference and interviewing rooms, washrooms,
inactive filing, switchboard and reception, desk areas
with no office work involved, shop retail sales areas.
323 lx.
(30 footcandles)
Casualseeing tasks

i.e. Restrooms, corridors, stairways.
215 lx.
(20 footcandles)

(4) The brightness ratios in working areas of offices shall not exceed those stipulated in Table 5 below, unless an officer directs otherwise:

Table 5. Brightness Ratios
3 to 1 between tasks and adjacent surroundings.
10 to 1 between tasks and darker surfaces.
20 to 1 between luminaires (or windows) and surfaces adjacent to them.
40 to 1 anywhere within the environment of the worker.

(5) Reflectance values in working areas of offices shall conform to Table 6 below, unless an officer directs otherwise:

Table 6. Reflectance Values
  Reflection Factor (%)
Surface Not Less Than Not More Than
Ceiling finishes 70 90
Walls 40 60
Furniture 25 45
Office machines and equipment 25 45
Floors 15 30

NOISE CONTROL

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(1) When a worker's exposure to steady state noise or impact noise or both exceeds the permissible noise exposure levels the employer shall institute engineering controls to reduce the noise levels to or below the permissible values.

(2) All persons exposed to excessive noise levels shall be provided with and shall wear a hearing protection device.

(3) A worker's exposure to steady state and impact noise shall be limited to the following permissible values:

Steady State Noise
Noise Level (dBA) Maximum Daily Exposure Time Without Hearing Protection (Hours)
85 8
88 4
91 2
94 1
97 1/2
100 1/4
over 103 0
Impact Noise
Peak Sound Pressure Level (dB) Maximum Number of Impacts per 24-Hour Period
118 14400
121 7200
124 3600
127 1800
130 900
133 450
136 225
139 112
140 90
over 140 0

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(1) Where muff type hearing protectors are worn, the worker shall be responsible for wearing hair and personal apparel in such a manner that the muff maintains an effective seal around the ears.

(2) Workers in any work area shall not wear muff type hearing protectors or headsets which have been designed or modified to accept AM or FM radio or other music sources.

(3) Subsection (2) does not apply to muff type hearing protectors designed and used for the express purpose of two-way radio or speech communication.

(4) Every employer shall post and maintain clearly worded warning signs at entrances to, or on the periphery of, areas where persons are exposed to noise levels in excess of the limits specified in these regulations; these signs shall clearly state that a noise hazard exists and shall describe the protective equipment required.

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(1) In any place of employment at which workers are exposed to noise in excess of the criteria stated in these regulations, the employer shall be responsible for the establishment and maintenance of a audiometric test program for those workers routinely exposed to noise levels in excess of the following:

(a) 80 dBA steady state noise for 8 hours, or

(b) impact noise of:

Peak Sound Pressure Level (dB) Maximum Number of Impacts per 24-Hour Period
over 135 0
135 90
134 112
131 225
128 450
125 900
122 1800
119 3600
116 7200
113 14400

(2) The audiometric testing program shall include the following requirements:

(a) every worker exposed to noise levels in excess of those listed in subsection (1) shall receive an annual audiometric examination;

(b) each new worker who will be exposed to noise in excess of levels listed in clause (1) shall receive a audiometric examination within 6 months of the commencement of employment;

(c) a worker shall receive additional periodic follow-up examinations in any of the following circumstances:

i. where a worker has been exposed to an unusually loud noise, such as an explosion;

ii. where an ear infection, head injury, or complaint related to the ear has occurred;

iii. where an audiogram has been classified as “abnormal change”.

(3) Each hearing test shall be administered by a physician, an audiologist or a certified audiometric technician.

(4) Audiometric tests shall be conducted within a facility where the octave band sound pressure levels do not exceed those specified in the following table: (see table)

Octave-Band Centre Frequency (HZ) Octave-Band Sound Pressure Level (Decibels)
500 30
1000 30
2000 35
4000 42
8000 45

(5) Each initial hearing test shall include a personal medical history of the worker; such medical history records shall not be duplicated or copies kept by the employer and shall be maintained confidentially by the board.

(6) Every employer conducting an audiometric testing program shall maintain a record of the audiometric test in respect of each worker, and shall keep a record of the test, for so long as the worker remains employed by that employer.

(7) The authorized tester shall record the hearing tests in a manner set by the board and submit the test results to the board; other persons may receive a copy of the test results with the permission of the worker.

i. where in the opinion of the person conducting the hearing surveillance program the hearing of a worker has been impaired by excessive exposure to sound;

ii. where audiometric examination of a worker discloses a hearing level in either ear averaging 25 decibels or more at 1,000, 2,000, 3,000 and 4,000 Hertz on a baseline audiogram;

iii. where audiometric examination of a worker discloses a threshold shift from the baseline audiogram of 15 decibels or more in either ear at any audiometric test frequency from 1,000 Hertz to 6,000 Hertz inclusive;

(8) the person conducting the audiometric testing program shall within 30 calendar days refer the worker to a supervising physician or to an audiologist engaged by the employer to conduct diagnostic tests and to review the worker’s health history and the assessment of the worker’s exposure to sound.

VENTILATION

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(1) Ventilation systems for the control of health hazards shall be designed, constructed and installed in accordance with established engineering principles as published by the American Conference of Governmental Industrial Hygienists, "Industrial Ventilation: A Manual of Recommended Practice".

(2) All ventilation systems shall be maintained in good working order.

(3) An employer may submit to the board, drawings and specifications of the ventilation system or of any modifications to the ventilation system.

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(1) Airborne contaminants shall be controlled at their source by use of an effective local exhaust system; or where this is not practical, general ventilation systems, or a combination of the two shall be used.

(2) Local exhaust ventilation systems shall be designed so that under normal work procedures a worker is not located between the source of contamination and the exhaust intake.

(3) Where an exhaust system is installed, provision shall be made for an adequate supply of tempered make-up air. The opening of windows and doors is not adequate for this purpose.

(4) Ventilation systems shall be designed so that contaminated exhaust air is not recirculated to the work area or other work sites.

(5) Material or equipment, which will affect the efficiency of the ventilation system, shall not be piled or stored in front of ventilation openings.

(6) Wherever an operation or work process produces combustible or flammable dusts, vapours, smoke, fumes, or gases in concentrations that may exceed the lower explosive limit of that substance, such operation or work process shall be provided with an appropriate separate exhaust ventilation system.

(7) When there is a change in a work process, operation, machinery or equipment the ventilation system shall be modified as required to maintain the concentration of airborne contaminants below the levels prescribed in Tables 8 to 13 below.

THERMAL ENVIRONMENT

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(1) Every employer shall provide and maintain in every indoor place of employment thermal conditions, including air temperature, radiant temperature, humidity and air movement, which are reasonable and appropriate to the nature of the work performed.

(2) At every indoor place of employment where the thermal environment is likely to be of discomfort or danger to the workers, the employer shall provide an appropriate and suitably located instrument for measuring the thermal conditions.

(3) Where it is not reasonably practicable to control thermal conditions pursuant to subsection (1) or where the work is being performed outdoors, the employer shall provide effective protection for the health and safety and reasonable thermal comfort of workers; such protection may include:

(a) frequent monitoring of thermal conditions;

(b) special or temporary equipment such as screens, shelters and temporary heating or cooling equipment;

(c) special clothing or personal protective equipment;

(d) hot or cold drinks, acclimatization or other physiological procedures;

(e) limited work schedules with rest and recovery periods, changes in workloads, changes in hours or other arrangements for work;

(f) any other appropriate measure.

SPACE ALLOTMENT

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(1) Every employer shall ensure that no part of the place of employment is overcrowded to a degree that may cause risk of injury to workers.

(2) Without limiting the generality of subsection (1), the employer shall ensure that there is at least 10 cubic meters (353 cubic feet) of space for each worker employed at any one time in any workroom.

(3) For the purpose of subsection (2), no space that is more than three meters (10 feet) from the floor and no space occupied by solid objects is to be taken into account.

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(1) Where workers have in the course of their work reasonable opportunities for sitting without detriment to their work, the employer shall provide and maintain for their use appropriate seating to enable them to sit.

(2) Where a substantial portion of any work can properly be done sitting, the employer shall provide and maintain:

(a) a seat suitably designed, constructed, dimensioned and supported for the worker to do the work; and

(b) where needed, a footrest which can readily and comfortably support the feet.

HEAT STRESS

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(1) Where hot environment work conditions may cause heat disorders in workers employed in such conditions, the employer shall determine and record the thermal index using:

(a) Wet Bulb Globe Temperature (WBGT) according to the formulae: INDOOR OR OUTDOOR WITHOUT SOLAR LOAD: WBGT = 0.7WB + 0.3GT OUTDOOR WITH SOLAR LOAD: WBGT = 0.7WB + 0.2GT + 0.1.DB WHERE: WB = natural wet-bulb temperature DB = dry-bulb temperature GT = globe thermometer temperature, or

(b) Wet Globe Temperature (WGT).

(2) Workers shall not be permitted to work continuously when the thermal index, as measured in clause (1), exceeds the following limits:

  Thermal index averaged over a 2 hour period
WORK ACTIVITY Low Air Velocity
(less than 300 rpm or 91 m/min)
High Air Velocity
(above 300 rpm or 91 m/min)
WBGT WGT WBGT WGT
Light Work
Sitting at ease: light hand work
(writing, typing, drafting, bookkeeping);
hand and arm (small bench tools,
assembly, sorting) arm and leg work
(operating foot switch or pedal, driving
a car).
Standing: drill press for small
parts; milling machine for small
parts; light power tools; casual walking.
30°C (86°F) 26°C (79°F) 32°C (90°F) 28°C (82°F)
Moderate Work
Hand and arm work (nailing, filing);
arm and leg work (tractors,
construction equipment); air hammer;
heavy assembly; picking fruits and
vegetables.
28°C (82°F) 24°C (75°F) 31°C (87°F) 27°C (81°F)
Heavy Work
Shovelling, sledge hammer work;
sawing, planing; digging; axe work;
pushing or pulling heavy loads;
concrete block laying.
26°C (79°F) 22°C (72°F) 29°C (84°F) 25°C (77°F)

(3) Where the thermal index exceeds the levels in clause (2), the employer shall

(a) implement engineering methods to reduce the thermal index or isolate the worker from the source of heat, or

(b) implement work-rest regimes so that the thermal index averaged over the hottest 2 hour period is below that listed in clause (2),

(c) ensure that the worker is wearing appropriate protective clothing, or

(d) implement a combination of (a), (b) and (c).

(4) Where workers are exposed to hot work conditions, the employer shall:

(a) instruct the workers in the recognition of symptoms of heat disorders including heat exhaustion, dehydration, heat cramps, prickly-heat, and heat stroke, and

(b) provide an adequate supply of potable water and salt supplement or a 0.1-0.2% saline drinking solution.

HAZARDOUS SUBSTANCES

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(1) Hazardous chemical substances include the following substances:

(a) explosives;

(b) compressed gases;

(c) flammable liquids;

(d) flammable solids;

(e) corrosive substances;

(f) poisonous and infectious substances;

(g) oxidizers and organic peroxides;

(h) radioactives; and

(i) hot liquids.

(2) The storage and handling of hazardous chemical substances shall be so controlled as to prevent spillage or accidental lighting of these substances; the following measures shall be taken:

(a) separating or isolating any chemical substance which when mixed with other substances, may cause a fire or an explosion or may liberate flammable or poisonous gases;

(b) keeping containers, piping, and other apparatus in good working order; and

(c) not leaving any spilled substance on the floors or shelves.

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(1) Flammable gases such as ammonia, hydrogen, acetylene, and hydrogen sulfide, shall never be stored with oxidizing substances or with gases maintaining combustion such as chlorine, nitrogen tetraoxide, oxygen, and compressed air.

(2) Compressed gas cylinders shall

(a) be in accordance with the regulations of the Canadian Transport Commission,

(b) be labelled and homologated,

(c) be away from any radiator or other heat sources,

(d) not be exposed to temperature above 50°C (122°F),

(e) be provided with protective caps covering the valves, when not in use,

(f) be used only for the purposes they were designed,

(g) not be handled in a manner that could damage them and be fastened upright or held in a cart when being utilized, and

(h) be stored upright, with the valves on top, and firmly held in place.

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The storage, handling and use of flammable and combustible liquids, shall be carried out in accordance with the standard Flammable and Combustible Liquids Code NFPA 30-1969.

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(1) Corrosive substances shall be stored

(a) away from areas with high fire hazards,

(b) away from oxidizing substances,

(c) protected against direct solar rays, and

(d) in cool and well ventilated areas.

(2) Containers for corrosive substances shall be

(a) kept closed,

(b) clearly identified,

(c) handled with care.

(3) Workers engaged in the handling and decanting of corrosive substances shall wear individual protective equipment as required by the General Safety Regulations.

(4) If the operations mentioned in subsection (3) are regularly or frequently performed, emergency showers and eye fountains shall be installed in the immediate surroundings.

(5) Open reservoirs and vats in which corrosive liquids are agitated with compressed air or heated with steam shall be so protected that the operator is not exposed to splashes.

(6) Level indicators on open reservoirs and vats for corrosive liquids shall be provided with protective screens.

(7) Reservoirs and tanks containing corrosive liquids shall be provided with an overflow device.

POISONOUS SUBSTANCES

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(1) Poisonous substances shall be stored

(a) away from areas of high fire hazard and from heat sources,

(b) away from oxidizing substances, and

(c) in cool and well ventilated areas.

(2) The cylinders for poisonous gases shall be clearly identified.

(3) Signs specifying the nature of the danger shall be placed at all entrances to areas containing poisonous gases.

(4) When poisonous substances that can be absorbed through the skin in harmful quantities are used or handled in open containers

(a) the workers shall wear personal protective equipment,

(b) means shall be provided to wash quickly a substance spilled on the skin.

(5) The workers exposed to poisonous substances shall be advised of the hazards involved and of the protective methods to be used.

(6) Level indicators for open reservoirs and vats containing poisonous liquids shall be provided with protective screens.

(7) Reservoirs and tanks containing poisonous liquids shall be provided with an overflow device.

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(1) Flammable substances shall be stored

(a) away from areas with high fire hazards, and

(b) away from oxidizing substances.

(2) Spontaneously combustible substances shall be kept

(a) in an inert liquid,

(b) in an inert atmosphere, or

(c) in airtight containers.

(3) Substances that react with water shall be stored

(a) in closed containers,

(b) away from moisture sources, and

(c) away from sweating or dripping pipes.

(4) Unstable substances subject to detonation by heat, shock, vibration or sound waves shall be stored separately and well protected.

OXIDIZING SUBSTANCES

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(1) Oxidizing substances shall be stored

(a) away from acids and corrosive liquids with which they may react in an explosive manner,

(b) away from metallic powders,

(c) away from organic substances, and

(d) away from substances which oxidize easily, including wood surfaces.

(2) Containers of oxidizing substances shall be

(a) kept closed,

(b) clearly identified, and

(c) stored in cool, dry places.

(3) Any equipment utilized for the process or handling of oxidizing materials shall be grounded.

(4) Clothes contaminated by oxidizing substances shall be removed immediately and washed before being worn again.

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(1) All open containers in which noncorrosive liquids have a temperature exceeding 60°C (140°F) are agitated or heated, shall have their control devices isolated or guarded by a screen to protect the operator against splashes.

(2) Level indicators on reservoirs, vats or other containers of hot liquids shall be provided with protective screens.

(3) Workers engaged in the handling of hot liquids shall wear personal protective equipment.

MEDICAL EXAMINATIONS

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(1) For the purpose of these regulations
"biological monitoring"

means the recording of a series of medical tests or examinations which indicate the progressing health status of an individual or group of individuals;

"certificate of medical fitness"
means a document that indicates:
  1. the date of the medical examination;
  2. the worker's name, occupation and department or work place;
  3. that the worker is medically
    1. fit,
    2. fit with limitation (limitation to be stated),
    3. unfit temporarily,
    4. unfit permanently;
  4. the signature of the qualified medical practitioner.

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(1) The employer shall ensure that workers are medically examined whenever

(a) there is exposure to the dust or fume of lead or its compound at or above 50% of those limits listed in Table 8; or

(b) there is exposure to mercury or its compounds at or above 50% of those limits listed in Table 8,

(c) there is exposure to dust containing 1% or more by weight free silica at or above 50% of those limits listed in Table 10; or

(d) there is exposure to dust containing asbestos, which when airborne, results in asbestos fibre levels at or above 50% of those limits listed in Table 10,

(e) there is or there is likely to be any exposure to atmospheric pressures exceeding the ambient atmospheric pressure by 6.9kPa (1 psi),

(f) any other harmful condition may exist which, in the opinion of the board, requires medical examinations or medical investigations for workers so exposed.

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(1) All medical examinations and medical investigations shall be carried out in compliance with the requirements of these regulations and any other requirements the board may set.

(2) The medical practitioner is responsible for advising examined workers as to the nature of the occupational health hazards for which the examination is being carried out and as to the health precautions required.

(3) After each examination required under this section

(a) the medical practitioner shall forward to the employer a written certificate of the worker's medical fitness for employment in

i. the worker’s present or intended occupation, and

ii. the worker’s present or intended location, and

(b) each worker examined shall receive without undue delay an oral or written statement of medical fitness as determined by the examination and any biological monitoring tests.

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Whenever a medical examination reveals that a worker is likely to be peculiarly susceptible to an industrial disease or that a worker has already developed the early signs or symptoms of an industrial disease, then the medical practitioner shall undertake such other medical investigations as may be necessary and shall advise the worker and employer of preventive or remedial actions necessary in the circumstances.

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No employer shall knowingly employ any worker in any occupation or location when a medical practitioner has advised against such employment.

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(1) An individual worker's medical record shall be maintained on a confidential basis under the custody and control of the medical practitioner and shall not be made available to either an employer or any person other than the board without the consent of the worker.

(2) Whenever biological monitoring requires a chemical analysis of body fluids, the analysis shall be carried out by a laboratory acceptable to the board.

AIR CONTAMINANTS

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(1) A worker's exposure to airborne contaminants shall be limited to the stated permissible concentrations as specified in the tables and the preambles thereto.

(2) When there is exposure to a mixture of two or more substances listed in the air contaminant tables, the effects of such exposure shall be considered to be additive, unless it is known otherwise, and the equivalent exposure as computed below shall not exceed unity (1): E = C1 / L1 + C2 / L2 + ... (Cn / Ln) where E = equivalent exposure to the mixture C1 = measured time weighted average concentration of first substance etc, C2 = measured time weighted average concentration of second substance etc, L1 = the 8-hour time weighted average for first substance L2 = the 8-hour time weighted average for second substance, etc.

(3) Substances listed in Table 12 shall not exceed concentrations reducing the available oxygen below 18 per cent by volume in the work place atmosphere or which will present other hazards, such as fire and explosion.

(4) A worker's exposure to substances listed in Table 7 and Table 14 for periods of time greater than 8 hours in any 24-hour period shall be limited to the modified permissible concentration (M.P.C.) calculated as: M.P.C. = Permissible Concentration X 8/h X 24–h/16 where Permissible Concentration are the values listed in Appendix A and B h = number of hours of exposure on shift.

(5) When a worker's exposure to air contaminants exceeds permissible concentrations, the employer shall take immediate steps to reduce the worker's exposure to levels at or below the permissible concentration through engineering or administration controls.

(6) When engineering or administrative controls are not practicable the employer shall provide and the worker shall use personal protective equipment acceptable to the board as a temporary means to control a worker's exposure to air contaminants, and the employer shall establish and maintain a health surveillance program to ensure that an exposed worker's body burden of harmful substances listed in Table 13 remains below the maximum acceptable levels.

(7) Clauses (1) and (2) do not apply

(a) when air contaminant is present in a location or at a time at which human access is impossible, or unnecessary, or not permitted, or

(b) in temporary or emergency situations or during cleaning and disposal operations, provided that workers involved have been properly trained and protective equipment worn.

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Where it is necessary for an employer to reduce or contain the level of contamination at any place of employment, preference must be given to methods that do not involve pollution of the environment.

INORGANIC LEAD

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(1) The employer shall ensure that each worker who is exposed to the dust or fume of inorganic lead or its compounds at or above 50% of those limits listed in Table 8 is medically examined.

(2) A worker shall be medically examined within 15 days of the commencement of employment or exposure.

(3) Additional periodic medical examinations shall be carried out at intervals prescribed by a qualified medical practitioner but in no case shall the interval exceed 5 years.

(4) Biological monitoring shall include a urinary lead and blood lead analysis which shall be carried out at each medical examination and in accordance with Schedules 1 and 2.

SCHEDULE 1-LEAD IN URINE
(corrected to a Specific Gravity of 1.024)
(Exposure to Inorganic Lead)
Lead in Urine (micrograms/litre)Action Necessary
Less than 150Recheck within 3 months
150 - 200Recheck within 6 weeks
More than 200(a) Recheck within one month
(b) Blood lead analysis within 15 days and refer to Schedule 2.
SCHEDULE 2-LEAD IN BLOOD
(Exposure to Inorganic Lead)
Lead in Blood (micrograms/100 millitres)Action Necessary
Less than 70Recheck within one year
70 - 80(a) Advise worker of potential danger and corrective measures.
(b) Recheck blood lead within 3 months
More than 80(a) Immediately reduce lead exposure
(b) Medical interview and recheck blood lead within one month
(c) If symptoms of lead poisoning are absent, consideration of removal of worker from further exposure to lead.
(d) If symptoms of lead poisoning are present, worker shall not be further exposed to lead until sign and symptom free and blood lead is less than 70 micrograms per 100 millitres of blood.

ORGANIC LEAD

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(1) The employer shall ensure that each worker who is exposed to organic lead compounds at or above 50% of those limits listed in Table 8 is medically examined.

(2) A worker shall be medically examined within 15 days of the commencement of employment or exposure.

(3) Additional periodic medical examinations shall be carried out at intervals prescribed by a qualified medical practitioner but in no case shall the interval exceed 6 months.

(4) Biological monitoring shall include a urinary lead analysis which shall be carried out at each medical examination and in accordance with Schedule 3.

Schedule 3. LEAD IN URINE
(corrected to a Specific Gravity of 1.024)
(Exposure to Organic Lead)
Lead in Urine (micrograms/litre)Action Necessary
Less than 140Recheck within one month
140 - 160Reduce exposure and recheck within one week
More than 160(a) Remove from further exposure
(b) Recheck result within one week
(c) Medical examination within one week
(d) Consideration of return to work.

MERCURY (EXCEPT FOR ALKYL MERCURY COMPOUNDS)

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(1) The employer shall ensure that each worker who is exposed to mercury or its compounds, other than the alkyl compounds, at or above 50% of those limits listed in Table 8 is medically examined.

(2) A worker shall be medically examined within 15 days of commencement of employment or exposure.

(3) Additional periodic medical examination shall be carried out at intervals prescribed by a qualified medical practitioner, but in no case shall the interval exceed 2 years.

(4) Biological monitoring shall include a urinary mercury analysis which shall be carried out at each medical examination and in accordance with Schedule 4.

Schedule 4. MERCURY IN URINE
(corrected to a Specific Gravity of 1.024)
(Except for exposure to Alkyl Mercury Compounds)
Mercury in Urine (micrograms/litre)Action Necessary
Less than 250Recheck within 3 months
250 - 500Recheck within one month and if confirmed reduce further mercury exposure until urinary mercury level is less than 250 micrograms per litre
More than 500(a) Immediately reduce mercury exposure
(b) Medical interview and recheck urinary mercury within one month
(c) If symptoms of mercury poisoning are absent, consideration of removal of worker from further exposure
(d) If symptoms of mercury poisoning are present, worker shall not be further exposed to mercury until sign and symptom free and urinary mercury is less than 200 micrograms per litre.

ALKYL MERCURY COMPOUNDS

32

(1) The employer shall ensure that each worker who is exposed to alkyl mercury compounds at or above 50% of those limits listed in Table 8 is medically examined.

(2) A worker shall be medically examined within 15 days of the commencement of employment or exposure.

(3) Additional periodic medical examinations shall be carried out at intervals prescribed by a qualified medical practitioner but in no case shall the interval exceed one year.

(4) Biological monitoring shall include a urinary mercury analysis which shall be carried out at each medical examination and in accordance with Schedule 5.

Schedule 5. MERCURY IN URINE
(corrected to a Specific Gravity of 1.024)
(Exposure to Alkyl Mercury Compounds)
Mercury in Urine (micrograms/litre)Action Necessary
Less than 40Recheck within one month
More than 40(a) Immediately reduce mercury exposure
(b) Medical interview and recheck within 15 days
(c) If symptoms of mercury poisoning are absent, consideration of removal of worker from further exposure
(d) If symptoms of mercury poisoning are present, worker shall not be further exposed to mercury until sign and symptom free and urine mercury is less than 20 micrograms per litre.

ASBESTOS CONTROL

33

In this regulation
"asbestos"

means chrysotile, crocidolite, amosite, tremolite, anthophyllite and actinolite when in their fibrous form;

"asbestos control contractor"

means an employer certified by an accredited agency as competent in asbestos control.

"FEV"

means forced expiratory volume in 1.0 second;

"FVC"

means forced vital capacity;

"pulmonary function technician"

means a person who has passed a pulmonary function technician course approved by the board, or has been approved by the board as having the equivalent of an approved pulmonary function technician course and has passed a requalification examination when requested by the board;

"HEPA filter"

means high efficiency particulate air filter;

"restricted area"

means an area of a work site in which there is a reasonable potential for worker exposure to airborne asbestos in an amount equal to or greater than 25% of the 8-hour Occupational Exposure Limit, in Table 10.

34

General Provisions for Asbestos Control
(1) A pre-project meeting shall be held between the contractor, the on-site supervisor and officer prior to any work commencing on any asbestos control project.

(2) Approval for deviation from these regulations may be granted by the board prior to the work commencing, provided an acceptable alternate level of protection is provided to the workers.

(3) A competent worker, certified in asbestos control procedures, must remain on-site at all times during the work process.

(4) An asbestos control contractor shall ensure:

(a) The work area is sealed off from all other areas in the building by use of heavy duty polyethylene or similar impermeable material;

(b) All openings such as doors, windows, and air vents are sealed with polyethylene, taped securely in place;

(c) All entrances and exits to the restricted area are controlled by triple panel polyethylene air locks; (see s.39, diagram 1)

(d) A ventilation unit capable of maintaining a 10% negative air pressure must be installed in the work area with HEPA filters on the exhaust side which is outside the work area.

(5) When unprotected workers are required to be in an area adjacent to a restricted area, continuous instantaneous air sampling shall be conducted in the adjacent area by the asbestos control contractor.

(6) When all the asbestos has been removed from the site, the asbestos control contractor shall conduct air sampling to ensure a concentration of less than 0.2 fibres per cc has been obtained.

(7) The asbestos control contractor may remove the polyethylene enclosure after a concentration lower than 0.2 fibres per cc has been obtained.

(8) As a final clean-up, an asbestos control contractor shall clean all exposed surfaces in the work area by vacuuming, utilizing a vacuum cleaner with a 2-stage HEPA filter.

(9) Prior to the work area being returned to regular use, an officer shall conduct air sampling to ensure the level of asbestos contamination is below the acceptable level. (less than 0.2 fibres per cc)

(10) The asbestos control contractor shall transport all bagged materials to a pre-arranged sanitary landfill site and ensure it is covered over immediately.

35

Procedures Within Restricted Area
(1) The employer shall

(a) use water containing a wetting agent to soak the asbestos surface;

(b) removaled containers that are impervious to asbestos and are clearly labelled to indicate the contents and carcinogenic hazard, with a warning that the dust should not be breathed.

(c) ensure that removal is complete and no asbestos material remains on the surface or on beams, pipes or similar surfaces;

(d) keep the worksite clear of unnecessary accumulations of asbestos waste;

(e) wet the asbestos for handling where practicable;

(f) ensure that any cleaning of a restricted area is done by wet sweeping or by use of a vacuum cleaner equipped with a HEPA filter;

(g) ensure that all asbestos waste is kept, conveyed and disposed of in sealed containers that are impervious to asbestos and are clearly labelled to indicate the contents and carcinogenic hazard, with a warning that the dust should not be breathed.

(2) Where conditions render it impossible to achieve complete removal, a sealant must be applied by an asbestos control contractor to fix the asbestos to the surface.

(3) An employer shall ensure all tools and equipment are thoroughly washed or vacuumed prior to being removed from the restricted area.

36

Restricted Area
An employer shall:

(1) Limit access to the restricted area to persons authorized by law or the employee;

(2) Ensure no person shall eat, drink or smoke in a restricted area;

(3) Ensure that any person entering the restricted area is attired with protective clothing and equipment;

(4) Post signs at the entrance to, or on the perimeter of a restricted area, indicating that:

(a) asbestos is present;

(b) access is limited to authorized personnel;

(c) asbestos is a carcinogen; and

(d) eating, drinking, and smoking are prohibited.

(5) Ensure that any person leaving a restricted area is free from asbestos contamination.

37

Direction to Workers
An employer shall, prior to commencing a project, provide direction and instruction to all workers involved in the project outlining

(a) the health hazards associated with exposure to asbestos fibre and the additional risk when combined with cigarette smoking;

(b) the requirement to wear the personal protective equipment as outlined by these regulations;

(c) the use and limitations of the respiratory protection being provided; and

(d) the work to be performed at the site.

38

Protection of Workers
An employer shall provide:

(a) a complete change of clothing, including coveralls, caps and rubber boots, for each worker involved in work with asbestos;

(b) respiratory protection designed to protect against exposure to asbestos fibre;

(c) sanitary facilities within or close to the restricted area;

(d) a shower facility to remove all asbestos fibre from the body; and

(e) goggles, hard hats or other Personal Protective Equipment as required by the General Safety Regulations for the work being performed.

39

Personal Decontamination
(1) An employer shall provide at least three separate decontamination chambers for workers to use to ensure that they and their clothing are free of asbestos contamination when they leave the work site.

(2) An employer shall construct the decontamination chambers, except for the shower, of sufficient size to hold all the workers, their protective clothing and equipment, and their street clothing.

(3) Every worker shall remove, and store or dispose, all clothing and protective equipment except the respirator while in the first chamber, or transfer room.

(4) Every worker shall enter the shower with the respiratory equipment still in place.

(5) After each worker has thoroughly washed their head, face and respirator, they may remove their respirators and discard the used filters.

(6) In the third chamber, or clean room, workers shall dress in street clothing and store their respirators with new filters installed.

(7) The employer shall provide facilities within the clean room to store street clothing and to ensure no contamination of street clothing occurs.

(8) The employer shall ensure:

(a) reusable protective clothing worn in a restricted area is laundered when necessary and in any event not less frequently than every 3 days of use;

(b) protective clothing to be laundered is transported from a restricted area in sealed containers that are clearly labelled to indicate the contents and carcinogenic hazard with a warning that dust should not be breathed; and

(c) used disposable protective clothing and discarded filters are treated as asbestos waste.

(9) An employer shall construct doors between chambers of triple sheets of polyethylene, opening on alternating sides to ensure as good a seal as reasonably practical between chambers

DIAGRAM 1 Floor plan for a typical asbestos removal or encapsulation work site.

40

Medical Examinations
For the purposes of this section "exposed worker" means a worker who, for at least 10 days in a 12-month period, will likely be exposed to airborne asbestos in an amount equal to or greater than 25% of the 8-hour Occupational Exposure Limited in Table 10.

41

(1) The employer of an exposed worker shall ensure that the worker undergoes a medical assessment within 30 days after the first exposure, and

(a) not later than every 24 months after the date of the assessment, for the first ten 12-month periods if the worker continues to be an exposed worker for those periods,

(b) not later than every 12 months after the date of the last assessment conducted under clause (a), for as long as the worker continues to be an exposed worker.

(2) For the purpose of determining whether a worker is an exposed worker under subsection 41(1) the first 12-month period commences on the date of the worker's first exposure to airborne asbestos.

(3) A medical assessment shall consist of

(a) a P.A. chest x-ray on a 35 cm by 43 cm (14" x 17") plate,

(b) a pulmonary function test, including the spirogram, FEV1 and FVC, all conducted by a pulmonary function technician,

(c) an assessment of the worker's ability to wear a respiratory protective device, and

(d) a written history specifying the worker's

i. occupational exposure to industrial dust and carcinogens,

ii. respiratory symptoms including dyspnoea, cough, sputum production, wheezing or chest tightness,

iii. incidence of asthma, chronic bronchitis, emphysema, lung cancer, or other chronic lung disease, and

iv. smoking history.

(4) An asbestos control contractor shall bear the cost of providing medical assessments under these regulations.

SILICA

42

(1) The employer shall ensure that each worker who is exposed to dust containing 1% or more by weight free silica at or above 50% of those limits listed in Table 10 is medically examined.

(2) A worker shall be medically examined within 30 days of the commencement of employment or exposure.

(3) Additional periodic medical examination shall be carried out at intervals prescribed by a qualified medical practitioner but in no case shall the interval exceed 3 years.

(4) Biological monitoring shall include

(a) the measurement of Forced Expiratory Volume in one second and the Forced Vital Capacity, and

(b) a chest x-ray on a film approximately 35 x 43 cm (14" x 17"). These tests shall be carried out at each medical examination and at any other time as determined by a qualified medical practitioner; the chest x-ray films shall be interpreted by a physician competent to do so.

RADON GAS

43

In this regulation
"radon daughters"

means the short-lived radioactive decay products of radon-222, polonium-218, lead-214, and polonium-214.

"working level" or "WL"

means the amount of any combination of radon daughters in one litre of air that releases 1.3 x 105 mega electron volts of alpha energy during decay to lead-210.

44

The employer shall ensure that airborne concentrations of radon, where workers are exposed, are reduced to levels as low as reasonably practicable.

45

When the working level exceeds one, corrective action shall be taken forthwith.

46

(1) A plan for regular radiation monitoring of work areas shall be submitted to the board prior to commencement of operations.

(2) All radiation measurements shall be made by utilizing a method approved by the board.

(3) A record of all radiation measurements shall be forwarded to the board once per month.

(4) A copy of the information forwarded to the board shall be posted at the workplace at a location convenient to all workers.

TABLE 7
Maximum Acceptable Body Burdens
  Maximum Concentration
  Blood
ug/100mL
Urine
ug/L
Arsenic 50 1500
Cadmium 10 35
Lead    
Inorganic 80 200
Alkyl compounds - 160
Manganese - 75
Mercury    
Inorganic - 500
Alkyl compounds - 40
Vanadium - 150
Selenium. - 300
Fluoride - 5000
Carbon monoxide 10% as carboxyhaemoglobin -
TABLE 8
Permissible Concentrations for
Airborne Contaminant Substances
ppm = parts of vapour or gas per million parts of contaminatedair by volume at 25°C and 760 mm mercury pressure.

mg/m3 = approximate miligrams of material per cubic meter of air.
  Permissible Concentrations
  8-hour Limit 15-minute Limit
  ppm mg/m3 ppm mg/m3
Abate   10 - 20
Acetaldehyde 100 180 150 270
Acetic Acid 10 25 25 43
C Acetic anhydride 5 20 - -
Acetone 1,000 2,400 1,250 3,000
Acetonitrile 40 70 60 105
Acetylene (See Table 7)
Acetylene dichloride, see 1,2-Dichloroethylene 200 790 250 1,000
Acetylene tetrabromide 1 14 1.25 18
Acrolein 0.1 0.25 0.3 0.8
Acrylamide - Skin - 0.3 - 0.6
K Acrylonitrile - Skin (See Table 14)
Aldrin - Skin - 0.25 - 0.75
Aliphatic solvent "140 Flash" 25 150 37 225
Allyl alcohol - Skin 2 5 4 10
Allyl chloride 1 3 2 6
Allyl glycidyl ether (AGE) - Skin 5 22 10 44
Allyl propyl disulphide 2 12 3 18
Alundum (Al2O3) (See Table 11)
K 4-Aminodiphenyl - Skin (See Table 15)
2-Aminoethanol, see Ethanolamine 3 6 6 1 2
2-Aminipyridine 0.5 2 1.5 6
Ammonia 25 18 40 30
Ammonium chloride - fume - 10 - 20
Ammonium sulphamate (Ammate) - 10 - 20
¶-Amyl acetate 100 525 150 780
sec-Amyl acetate 125 650 150 810
Aniline (O-, p-isomers) - Skin 5 19 5 19
Anisidine (O-, p-isomers) - Skin 0.1 0.5 0.1 0.5
Antimony and compunds (as Sb) - 0.5 - 0.75
K Antimony trioxide production (as Sb) (See Table 14)
ANTU (a-Naphthyl thiourea) - 0.3 - 0.9
Argon (See Table 12)
Arsenic and compounds (as As) - 0.5 - 0.5
K Arsenic trioxide productin (as As) (See Table 14)
Arsine 0.05 0.2 0.05 0.2
K Asbestos (all forms) (See Table 10)
Asphalt (petroleum) fumes - 5 - 10
Atrazine - 10 - 15
Azinphos-methyl - Skin - 0.2 - 0.6
Barium (soluble compounds) (as Ba) - 0.5 - 0.5
Baygon (Propoxur) - 0.5 - 2
K Benzene (See Table 14)
K Benzidine production - Skin (See Table 15)
p-Benzoquinone, see Quinone 0.1 0.4 0.3 1.2
Benzoyl peroxide - 5 - 5
K Benz(a)pyrene (See Table 14)
Benzyl chloride 1 5 1 5
K Beryllium (See Table 14)
Biphenyl 0.2 1 0.2 1
C Bisphenol A, see Diglycidal ether (DGE) 0.05 2.8 - -
Bismuth telluride - 10 - 20
Bismuth telluride (Selinium-doped) - 5 - 10
Boron oxide - 10 - 20
Boron tribromide 1 10 3 30
C Boron trifluoride 1 3 - -
Bromine 0.1 0.7 0.3 2
Bromine pentafluoride 0.1 0.7 0.3 2
Bromochloromethane/chlorobromomethane 200 1,050 250 1,300
Bromoform - Skin 0.5 5 0.5 5
Butadiene (1,3-butadiene) 1,000 2,200 1,250 2,750
Butane 600 1,400 750 1,600
Butanethiol, see Butylmercaptan (See Table 9)
2-Butanone 200 590 250 740
2-Butoxyethanol (Butylcellosolve) - Skin 50 240 150 720
¶-Butyl acetate 150 710 200 950
sec-Butyl acetate 200 950 250 1,180
tert-Butyl acetate 200 950 250 1,180
Butyl acrylate 10 55 15 82
C ¶-Butyl alcohol - Skin 50 150 - -
sec-Butyl alcohol 150 450 150 450
tert-Butyl alcohol 100 300 150 450
C Butylamine - Skin 5 15 - -
C tert-Butyl chromate (as CrO3) - Skin - 0.1 - -
¶-Butyl glycidyl ether(BGE) 50 270 75 400
¶-Butyl lactate 5 25 5 25
Butyl mercaptan (See Table 9)
p-tert Butyltoluene 10 60 20 120
Cadmium, dust and salts(as Cd) - 0.05 - 0.15
C Cadmium oxide fume (asCd) - 0.05 - -
K Cadmium oxide production(as Cd) (See Table 14)
Calcium carbonate/marble (See Table 11)
Calcium arsenate (as As) - 1 - 3
Calcium cyanamide - 0.5 - 1
Calcium hydroxide - 5 - 10
Calcium oxide - 2 - 4
Calcium silicate (See Table 11)
Camphor, synthetic 2 12 3 18
Caprolactam -        
Dust - 1 - 3
Vapour 5 20 10 40
Captan - 5 - 15
Carbaryl (Sevin R) - 5 - 10
Carbofuran (Furadan R) - 0.1 - 0.1
Carbon black - 3.5 - 7
Carbon dioxide 5,000 9,000 15,000 27,000
Carbon disulphide - Skin 20 60 30 90
Carbon monoxide 50 55 400 440
Carbon tetrabromide 0.1 1.4 0.3 4
Carbon tetrachloride -Skin 10 65 20 130
C Carbonyl chloride(phosgene) 0.05 0.2 - -
Carbonyl fluoride 5 15 10 30
Cellulose (paper fibre) (See Table 11)
Cesium hydroxide - 2 - 2
Chlordane - Skin - 0.5 - 1.5
Chlorinated camphene -Skin - 0.5 - 1
Chlorinated diphenyl oxide - 0.5 - 2
Chlorine 1 3 3 9
Chlorine dioxide 0.1 0.3 0.3 0.9
C Chlorine trifluoride 0.1 0.4 - -
C Chloroacetaldehyde 1 3 - -
a-Chloroacetophenone(Phenacyl chloride) 0.05 0.3 0.05 0.3
Chlorobenzene(Monochlorobenzene) 75 350 75 350
o-Chlorobenzylidenemalonitrile - Skin 0.05 0.4 0.05 0.4
Chlorobromomethane/Bromochloromethane 200 1,050 250 1,300
2-Chloro-1,3-butadiene,see B-Chloroprene - Skin 25 90 35 125
Chlorodifluoromethane 1,000 3,500 1,250 4,375
Chlorodiphenyl (42%Chlorine) - Skin - 1 - 2
Chlorodiphenyl (54%Chlorine) - Skin - 0.5 - 1
1-Chloro,2,3-epoxy-propane(Epichlorhydrin)) - Skin 5 20 10 40
2-Chloroethanol (Ethylene chlorohydrin) - Skin 1 3 1 3
K Chloroethylene (Vinylchloride) (See Table 14)
K Chloroform(Trichloromethane) (See Table 14)
K bis-Chloromethyl ether (See Table 14)
1, Chloro-1-nitro-propane 20 100 20 100
Chloropierin 0.1 0.7 0.1 0.7
B-Chloroprene - Skin 25 90 35 135
Chlorpyrifos (Dursban R) - Skin - 0.2 - 0.6
o-Chlorostyrene 50 285 75 420
o-Chlorotoluene - Skin 50 250 75 375
2-Chloro-6-(trichloromethyl pyridine(N-Serve R) - 10 - 20
Chromic acid and chromates (asCrO3)) - 0.1 - 0.1
K Chromite ore processing(chromate) (as Cr) (See Table XIV)
Chromium -        
Soluble chromic chromoussalts (as Cr) - 0.5 - 1.5
Metal and insoluble salts - 0.1 - 3.0
Clopidol (Coyden R) - 10 - 20
Coal dust (See Table 10)
KCoal tar pitch volatiles (see Particulate polycyclic aromatic hydrocarbons) (See Table 14)
Cobalt metal, dust andfume (as Co) - 0.05 - 0.15
Copper - Fume - 0.2 - 0.2
Dusts and mists (as Cu) - 1 - 2
Corundum (A12O3)) (See Table 11)
Cotton dust raw - 0.2 - 0.6
Crag R herbicide - 10 - 20
Cresol, all isomers - Skin 5 22 5 22
Crotonaldehyde 2 6 6 18
Crufomate R - 5 - 20
Cumene - Skin 50 245 75 365
Cyanide (as CN) - Skin - 5 - 5
Cyanogen 10 20 10 20
Cyclohexane 300 1,050 375 1,300
Cyclohexano 50 200 50 200
Cyclohexanone 50 200 50 200
Cyclohexene 300 1,015 300 1,015
Cyclohexylamine - Skin 10 40 10 40
Cyclopentadiene 75 200 150 400
2,4-D(2,4-Diphenoxy-acetic acid) - 10 - 20
DDT (Dichlorodiphenyl-trichloroethane) - 1 - 3
DDVP, see Dichlorvos -Skin 0.1 1 0.3 3
Decaborane - Skin 0.05 0.3 0.15 0.9
Demeton R - Skin 0.01 0.1 0.03 0.3
Diacetone alcohol (r-hydroxy-r-methyl-2-pentanone) 50 240 75 360
1,2-Diaminoethane, seeEthylenediamine 10 25 10 25
Diazinon - Skin - 0.01 - 0.03
Diazomethane 0.2 0.4 0.2 0.4
Diborane 0.1 0.1 0.1 0.1
K 1,2-Dibromoethane(Ethylene dibromide) - Skin (See Table XIV)
Dibrom R - 3 - 6
2-N-Dibutylaminoethanol -Skin 2 14 4 28
Dibutyl phosphate 1 5 2 10
Dibutyl phthalate - 5 - 10
C Dichloroacetylene 0.1 0.4 - -
C o-Dichlorobenzene 50 300 - -
  75 450 110 675
K 3,3-Dichlorobenzidine -Skin (See Table 15)
Dichlorodifluoromethane 1,000 4,950 1,250 6,200
1,3-Dichloro-5, 5-dimethyl hydantoin - 0.2 - 0.4
1,1-Dichloroethane 200 810 250 1,012
1,2-Dichloroethane 50 200 75 300
1,2-Dichloroethylene 200 790 250 1,000
Dichloroethyl ether - Skin 5 30 10 60
Dichloromethane, seeMethylene chloride 200 720 200 720
Dichloromonofluoromethane 500 2,100 625 2,625
C1,1-Dichloro-1-nitroethane 10 60 - -
1,2-Dichloropropane, seePropylene dichloride 75 350 115 525
Dichloroetetrafluoroethane 1,000 7,000 1,250 8,750
Dichlorvos (DDVP) - Skin 0.1 1 0.3 3
Dicyclopentadiene 5 30 5 30
Dicyclopentadienyl iron - 10 - 20
Dieldrin - Skin - 0.25 - 0.75
Diethylamine 25 75 25 75
Diethylaminoethanol - Skin 10 50 10 50
Diethylene triamine - Skin 1 4 1 4
Diethyl ether, see Ethylether 400 1,200 500 1,500
Diethyl phthalate - 5 - 10
Difluorodibromomethane 100 860 150 1,290
C Diglycidyl ether (DGE) 0.5 2.8 - -
Dihydroxybenzene, seeHydroquinone - 2 - 3
Diisobutyl ketone 25 150 25 150
Diisopropylamine - Skin 5 20 5 20
Dimethoxymethane, seeMethylal 1,000 3,100 1,250 3,875
Dimethyl acetamide - Skin 10 35 15 50
K Dimethyl carbamylchloride (See Table 16)
Dimethylamine 10 18 10 18
Dimethylaminobenzene, seeXylidene - Skin 5 25 10 50
Dimethylaniline(N,N-Dimethylaniline) - Skin 5 25 10 50
Dimethylbenzene, seeXylene - Skin 100 435 150 650
Dimethyl-1, 2-dibromo-2-dichloroethylphosphate, see Dibrom R-3-6        
Dimethylformamide - Skin 10 30 20 60
2,6-Dimethyl-4-heptanone,see Diisobutyl ketone 25 150 25 150
1,1-Dimethylhydrazine -Skin 0.5 1 1 2
Dimethylphathalate - 5 - 10
K Dimethyl sulphate - Skin (See Table 14)
Dinitrobenzene (allisomers) - Skin 0.15 1 0.5 3
Dinitro-o-cresol - Skin - 0.2 - 0.6
3,5-Dinitro-o-toluamide(Zoalene R) - 5 - 10
Dinitrotoluene - Skin - 1.5 - 5
Dioxane, tech. grade -Skin 50 180 50 180
Diphenyl, see Biphenyl 0.2 1 0.6 3
Diphenylamine - 10 - 20
C Diphenylmethanediisocyanate, see Methylene bisphenyl isocyanate (MDI) 0.02 0.2 - -
Dipropylene glycol methylether - Skin 100 600 150 900
Diquat (Reglone R) - 0.5 - 1
Di-sec, octyl phthalate (Di-2-ethyl-hexylphthalate - 5 - 10
Disulphuram - 2 - 5
Disyston - Skin - 0.1 - 0.3
2,6-Ditert, butyl-p-cresol - 10 - 20
Dyfonate - 0.1 - 0.1
Emery (See Table 11)
Endosulphan (Thiodan R) - Skin - 0.1 - 0.3
Endrin - Skin - 0.1 - 0.3
K Epichlorhydrin - Skin (See Table 14)
EPN - Skin - 0.5 - 2
1,2-Epoxypropane, seePropylene oxide 100 240 150 360
2,3-Epoxy-1-propanol, seeGlycidol 50 150 75 225
Ethane (See Table 12)
Ethanethiol, see Ethylmercaptan (See Table 9)
Ethanolamine 3 6 6 12
Ethion (Nialate R) - Skin - 0.4 - 0.4
2-Ethoxyethanol - Skin 100 370 150 560
2-Ethoxyethyl acetate(Cellosolve acetate) - Skin 100 540 150 810
Ethyl acetate 400 1,400 400 1,400
Ethyl acrylate - Skin 25 100 25 100
Ethyl alcohol (Ethanol) 1,000 1,900 1,000 1,900
Ethylamine 10 18 10 18
Ethyl sec-amyl ketone(4-Methyl-3-heptanone) 25 130 25 130
Ethyl benzene 100 435 125 545
Ethyl bromide 200 890 250 1,110
Ethylbutyl ketone(3-Heptanone) 50 230 75 345
Ethyl chloride 1,000 2,600 1,250 3,250
Ethyl ether 400 1,200 500 1,500
Ethyl formate 100 300 150 450
Ethyl mercaptan (See Table 9)
Ethyl silicate 100 850 150 1,275
Ethylene (See Table 12)
C Ethylene chlorohydrin -Skin 1 3 - -
Ethylenediamine 10 25 10 25
Ethylene dibromide, see1,2-Dibromoethane 20 145 30 220
Ethylene dichloride, see1,2-Dichloroethane 50 200 75 300
Ethylene glycol -        
Particulate - 10 10 20
Vapour 100 250 125 325
C Ethylene glycoldinitrate and/or Nitroglycerin - Skin 0.2 - - -
Ethylene glycol monomethyl ether acetate(Methylcellosolve acetate) - Skin 25 120 35 150
Ethylene oxide 50 90 75 135
Ethylenimine - Skin 0.5 1 0.5 1
Ethylidene chloride, see1,1-Dichloroethane 200 810 250 1,010
C Ethylidene norbornene 5 25 10 50
N-Ethylmorpholine - Skin 20 95 20 94
Fensulphorthion (Dasanit R) - 0.1 - 0.1
Farbam - 10 - 20
Ferrovanadium dust - 1 - 3
Fluoride (as F) - 2.5 - 2.5
Fluorine 1 2 2 4
Fluorotrichloromethane 1,000 5,600 1,250 7,000
C Formaldehyde 2 3 - -
Formamide 20 30 30 45
Formic acid 5 9 5 9
Furfural - Skin 5 20 15 60
Furfuryl alcohol - Skin 5 20 10 40
Gasoline (See Table 9)
Germanium tetrahydride 0.2 0.6 0.6 1.8
Glass, fibrous or dust (See Table 11)
C Glutaraldehyde, activated or unactivated - 0.25 - -
Blycerin mist (See Table 11)
Clycidol (2,3-Eposy-1-propanol) 50 150 65 190
Glycol monoethyl ether,see 2-Ethoxyethanol - Skin 100 370 150 560
Graphite (synthetic) (See Table 11)
GuthionR, see Azinpho-methyl - Skin - 0.2 - 0.6
Gypsum (See Table 11)
Hafnium - 0.5 - 1.5
Helium (See Table 12)
Heptachlor - Skin - 0.5 - 1.5
Heptane (n-Heptane) 400 1,600 500 2,000
Hexachlorocyclopentadiene 0.01 0.11 0.03 0.33
Hexachloroethane - Skin 1 10 3 30
Hexachloronaphthalene -Skin - 0.2 - 0.6
Hexafluoroacetone 0.1 0.7 0.3 2.1
Hexane (n-hexane) 100 360 125 450
K Hexamethyl phosphoramide- Skin (See Table 16)
2-Hexanone, see Methylbutyl ketone - Skin 25 100 40 150
Hexone (Methyl isobutylketone) - Skin 100 410 125 510
sec-Hexyl acetate 50 300 50 300
K-Hydrazine - Skin (See Table 16)
Hydrogen (See Table 12)
Hydrogenated terphenyls 0.5 5 0.5 5
Hydrogen bromide 3 10 3 10
C Hydrogen chloride 5 7 - -
Hydrogen cyanide - Skin 10 11 15 16
Hydrogen fluoride 3 2 3 2
Hydrogen peroxide 1 1.5 2 2.8
Hydrogen selenide 0.05 0.2 0.05 0.2
Hydrogen sulphide 10 15 15 27
Hydroquinone - 2 - 3
Indene 10 45 15 70
Indium and compounds (asIn) - 0.1 - 0.3
C Iodine 0.7 1 1 1
Iodoform 0.2 3 0.4 6
Iron oxide fume (as Fe203)) - 5 - 10
Iron pentacarbonyl 0.01 0.08 0.01 0.08
Iron salts, soluble (asFe) - 1 - 2
Isomyl acetate 100 525 125 655
Isoamyl alcohol 100 360 125 450
Isobutyl acetate 150 700 187 875
Isobutyl alcohol 50 150 75 225
C Isophorone525—        
Isopropyl acetate 250 950 310 1,185
Isopropyl alcohol - Skin 400 980 500 1,225
Isopropylamine 5 12 10 24
Isopropyl ether 250 1,050 310 1,320
Isopropyl clycidyl ether (IGE) 50 240 75 360
Kaolin (See Table 11)
Ketene 0.5 0.9 1.5 2.7
Lead, inoganic, fumes and dusts (as Pb) - 0.15 - 0.45
Lead arsenate (as Pb) - 0.15 - 0.45
K Lead chromate (as Cr) (See Table 14)
Limestone (See Table 11)
Lindane - Skin - 0.5 - 1.5
Lithium hydride - 0.025 - 0.025
L.P.G. (Liquifiedpetroleum gas) 1,000 1,800 1,250 2,250
Magnesite (See Table 11)
Magnesium oxide fume (asMg) - 10 - 10
Malathion - Skin - 10 - 10
Maleic anhydride 0.25 1 0.25 1
C Manganese and compounds(as Mn) - 5 - -
Manganese cyclopentadienyl tricarbonyl( as Mn) - Ski - 0.1 - 0.3
Marble/calcium carbonate (See Table 11)
Mercury (Alkyl compounds)Skin (as Hg) 0.001 0.01 0.003 0.03
Mercury (all forms exceptAlkyl) (as Hg) - 0.05 - 0.15
Mesityl oxide 25 100 25 100
Methane (See Table 12)
Methanethiol, see Methylmercaptan (See Table 9)
Methoxychlor - 10 - 10
2-Methoxyethanol - Skin (Methyl cellosolve) 25 80 35 120
Methyl acetate 200 610 250 760
Mehyl acetylene (propyne) 1,000 1,650 1,250 2,050
Methyl acetylenepropadiene mixture (MAPP) 1,000 1,800 1,250 2,250
Methyl acrylate - Skin 10 35 10 35
Methylacrylonitrile - Skin 1 3 2 6
Methylal(dimethoxymethane) 1,000 3,100 1,250 3,875
Methyl alcohol (methanol)- Skin 200 260 250 310
Methylamine 10 12 10 12
Methyl amyl alcohol, seeMethyl isobutyl carbinol - Skin 25 100 40 150
Methyl 2-cyanoacrylate 2 8 4 16
Methyl isoamyl ketone 100 465 150 710
Methyl m-amyl ketone (2-Heptanone) 100 465 150 710
Methyl bromide - Skin 15 60 15 60
Methyl butyl ketone, see2-Hexanone - Skin 25 100 40 150
Methyl cellosolve - Skin,see 2-Methoxyethanol 25 80 35 120
Methyl cellosolve acetate- Skin, see Ethylene glycol monomethyl ether acetate 25 120 35 150
Methyl chloride 100 210 125 260
Methyl chloroform(1,1,1-Trichloroethane) 350 1,900 440 2,400
Methylcyclohexane 400 1,600 500 2,000
Methylcyclohexanol 50 235 75 350
o-Methycyclohexanone - Skin 50 230 75 345
Methylcyclopentadienylmanganese tricarbonyl (as Mn) - Skin 0.1 0.2 0.3 0.6
Methyl demeton - Skin - 0.5 - 1.5
C Methylene bisphenylisocyanate (MDI) 0.02 0.2 - -
Methylene chloride(dichloromethane) 200 700 250 870
K 4, 4’-Methylene (bis (2-chloraniline)- Skin (See Table 14)
C Methylene bis (r-cyclohexylisocyanate) 0.01 0.11 - -
Methyl ethyl ketone (MEK),see 2-Butanone 200 590 250 740
C Methyl ethyl ketoneperoxide 0.2 1.5 - -
Methyl formate 100 250 150 375
Methyl iodide - Skin 5 28 10 56
Methyl isoamyl ketone 100 475 150 710
Methyl isobutyl carbinol -Skin 25 100 40 150
Methyl isobutyl ketone,see Hexone - Skin 100 410 125 510
Methyl isocyanate - Skin 0.02 0.05 0.02 0.05
Methyl mercaptan (See Table 9)
Methyl methcrylate 100 410 125 510
Methyl parathion - Skin - 0.2 - 0.6
Methyl propyl ketone, see2-Pentanone 200 700 250 875
N-Methyl-2-pyrrolidone 100 400 125 500
C Methyl silicate 5 30 - -
C a-Methyl styrene 100 480 - -
Mineral wool (See Table 11)
Molybdenum (as Mo)        
Soluble compounds - 5 - 10
Insoluble compounds - 10 - 20
Monomethyl aniline - Skin 2 9 4 18
Cc Monomethyl hydrazine -Skin 0.2 0.35 - -
Morpholine - Skin 20 70 30 105
Naphtha (coal tar) 400 1,800 500 2,250
Naphthalene 10 50 15 75
K B-Naphthylamine (See Table 16)
a-Naphthylthiourea (ANTU) - 0.3 - 0.9
Neon (See Talbe 12)
C Nickel carbonyl 0.05 0.35 - -
Nickel metal and insolublecompounds (as Ni) - 1 - 3
Nickel, soluble compounds(as Ni) - 0.1   0.3
K Nickel sulphideroasting, fume and dust as (Ni) (See Table 14)
Nicotine - Skin - 0.5 - 1.5
Nitric acid 2 5 4 10
Nitric oxide 25 30 35 45
p-Nitroaniline - Skin 1 6 2 12
Nitrobenzene - Skin 1 5 2 10
p-Nitrochlorobenzene -Skin - 1 - 2
K 4-Nitrodiphenyl (See Table 15)
Nitroethane 100 310 150 465
Nitrogen (See Table 12)
C Nitrogen dioxide 5 9 - -
Nitrogen trifluoride 10 29 15 45
Nitroglycerin - Skin 0.2 2 0.2 2
Nitromethane 100 250 150 375
1-Nitropropane 25 90 35 135
K 2-Nitropropane (See Table 14)
K N-Nitrosodimethylamine(dimethylnitrosoamine) - Skin (See Table 16)
Nitrotoluene - Skin 5 30 10 60
Nitrotrichloromethane, seeChloropicrin 0.1 0.7 0.1 0.7
Nonane 200 1,050 250 1,300
Octachloronaphthalene -Skin - 0.1 - 0.3
Octane 300 1,450 375 1,800
Oil mist, mineral - 5 - 10
Osmium tetraoxide (as Os) 0.0002 0.002 0.0006 0.006
Oxalic acid - 1 - 2
Oxygen difluoride 0.05 0.1 0.15 0.3
Ozone 0.1 0.2 0.3 0.6
Paraffin wax fume - 2 - 6
Paraquat, respirable sizes - 0.5 - 0.5
Parathion - Skip - 0.1 - 0.3
K Particulate polycylic aromatic hydrocarbons(PPAH) (as benzene solubles) (See Table 14)
Pentaborane 0.005 0.01 0.015 0.03
Pentachloronaphthalene - 0.5 - 1.5
Pentachlorophenol - Skin - 0.5 - 1.5
Pentaerythritol (See Table 11)
Pentane 600 1,800 750 2,250
2-Pentanone 200 700 250 875
Perchloroethyene - Skin 100 670 150 1,000
Perchloryl fluoride 3 14 6 28
Phenol - Skin 5 19 10 38
Phenothiazine - Skin - 5 - 10
p-Phenylene diamine - Skin - 0.1 - 0.1
Phenyl either (vapour) 1 7 2 14
Phenyl ether-Diphenylmixture (vapour) 1 7 2 14
Phenylethylene, seeStyrene, monomer 100 420 125 525
Phenyl glycidyl either(PGE)± 10 60 15 90
Phenyl mercaptan 3 10 3 10
Phenyhydrazine - Skin 5 22 10 44
C Phenylphosphine 0.05 0.25 - -
Phorate (ThimetR) - Skin - 0.05 - 0.15
Phosdrin (MevinphosR) -Skin 0.01 0.1 0.03 0.3
Phosgene (carbonylchloride) 0.1 0.4 0.3 1.2
Phosphine 0.3 0.4 1 1
Phosphoric acid - 1 0 3
Phorosphorus (yellow) - 0.1 - 0.3
Phosphorus pentachloride - 1 - 3
Phosphorus pentasulphide - 1 - 3
Phosphorus trichloride 0.5 3 0.5 3
C Potassium hydroxide - 2 - -
Propane (See Table 12)
K B-Propiolactone (See Table 16)
Propargyl alcohol - skin 1 2 3 6
¶-Propyl acetate 200 840 250 1,050
Propyl alcohol - Skin 200 500 250 625
¶-Propyl nitrate 25 110 40 140
Propylene (See Table 12)
Propylene dichloride (1,2-Dichloropropane) 75 350 115 525
C Propylene glycoldinitrate 0.2 2 - -
Propylene glycolmonomethyl either 100 360 150 450
Propylene imine - Skin 2 5 2 5
Propylene oxide 100 240 150 360
Propyne, see Methylacetylene 1,000 1,650 1,250 2,050
Pyrethrum - 5 - 10
Pyridine 5 15 10 30
Quinone 0.1 0.4 0.3 1
RDXR - Skin - 1.5 - 3
Resorcinol 10 45 20 90
Rhodium        
Metal frame and dusts (as Rh) - 0.1 - 0.3
Soluble salts (as Rh) - 0.001 - 0.003
Ronnel - 10 - 10
Rosin core solderpyrolysis products (as formaldehyde) - 0.1 - 0.3
Rotenone (commercial) - 5 - 10
Rouge (See Table 11)
Rubber solvent (Naphtha) 400 1,800 500 2,250
Selenium compounds (as Se) - 0.2 - 0.2
Selenium hexafluoride (asSe) 0.05 0.4 0.05 0.4
Sevin R, see Carbaryl - 5 - 10
Silane, see Silicontetrahydride 0.5 7 1 1.5
Silicon (See Table 11)
Silicon carbide (See Table 11)
Silicon tetrahydride(Silane) 0.5 0.7 1 1.5
Silver, metal and solublecompounds (as Ag) - 0.01 - 0.03
C Sodium azide 0.1 0.3 - -
Sodium fluoroacetate(1080) - 0.05 - 0.15
C Sodium hydroxide - 2 - -
"60 Solvent" 100 450 125 560
"70 Solvent" 50 300 75 450
Starch (See Table 11)
Stibine 0.1 0.5 0.3 1.5
Stoddard solvent 100 575 150 720
Strychnine - 0.15 - 0.45
C Succinaldehyde(Glutaraldehyde) - 0.25 - -
Styrene, monomer(Phenylethylene) 100 420 125 525
C Subtilisins (Proteolyticenzymes as 100% pure crystalline enzyme) - 0.00006 - -
Sucrose (See Table 11)
Sulphur dioxide 5 13 5 13
Sulphur hexafluoride 1,000 6,000 1,250 7,500
Sulphuric acid - 1 - 1
Sulphur monochloride 1 6 3 18
Sulphur pentafluoride 0.025 0.25 0.075 0.75
Sulphur tetrafluoride 0.1 0.4 0.3 1
Sulphuryl fluoride 5 20 10 40
Systox, see Demeton R - Skin 0.01 0.1 0.03 0.3
2,4,5-T - 10 - 20
Tantalum - 5 - 10
TEDP - Skin - 0.2 - 0.6
Teflon R decompositionproducts (as Fluorine) - 2.5 - 5.0
Tellurium and compounds(as Te) - 0.1 - 0.1
Tellurium hexafluoride (asTe) 0.02 0.3 0.02 0.2
TEPP - Skin 0.004 0.05 0.012 0.15
C Terphenyls 1 9 - -
1,1,1,2-Tetrachloro-2,2-difluorethane 500 4,170 625 5,210
1,1,2,2-Tetrachloro-/1,2-/ difluoroethane 500 4,170 625 5,210
1,1,2,2, Tetrachloroethane - Skin 5 35 10 70
Tetrachloroethylene, seePerchloroethylene - Skin 100 670 150 1,000
Tetrachloromethane, seeCarbon Tetrachloride - Skin 10 65 20 130
Phthalic anhydride 1 6 4 24
Picloram (TordonR) - 10 - 20
Picric acid - Skin - 0.1 - 0.3
PivalR (2-Pivalyl-1,3 indandione) - 0.1 - 0.3
Plaster of Paris (See Table 11)
Platinum (soluble salts)(as Pt) - 0.002 - 0.002
Polychlorobiphenyls,see Chrolordiphenyls - Skin - - - -
Polytetrafluoroethylenedecomposition products (as Fluorine) 2 2.5 - 5
Portland cement (see Table 11)
Tetrachloronapthalene - 2 - 4
Tetraethyl lead (as Pb) -Skin - 0.1 - 0.3
Tetrahydrofuran 200 590 250 700
Tetramethyl lead (as Pb) -Skin - 0.15 - 0.45
Tetramethyl succinonitrile- Skin 0.5 3 1.5 9
Tetranitromethane 1 8 1 8
Tetryl (2,4,6,-trinitrophenylmethylnitramine)- Skin - 1.5 0 3.0
Thallium, soluble compounds (asT1) - Skin - 0.1 - 0.1
4,4'-Thiobis(6-tert-butyl-mcresol) - 10 - 20
Thioglycolic acid 1 5 2 10
Thiram R - 5 - 10
Tin, inorganic compounds,except SnH4and SnO3(as Sn) - 2 - 4
Tin, organic compounds (asSn) - Skin - 0.1 - 0.2
Tin oxide (as Sn) (See Table 11)
Titanium dioxide (as Ti) (See Table 11)
Toluene (toluol) - Skin 100 375 150 560
C Toluene-2,4-diisocyanate(TDI) 0.02 0.14 - -
o-Toluidine 5 22 10 44
Toxaphene, see Chrlorinated camphene - Skin - 0.5 - 1.5
Tributyl phosphate - 5 - 5
C 1,2,4-Trichlorobenzene 5 40 - -
1,1,1,-Trichloroethane,see Methyl chloroform 350 1,900 440 2,400
1,1,2-Trichloroethane -Skin 10 45 20 90
Trichloroethylene 100 535 150 800
K Trichloromethane, seeChloroform (See Table 14)
Trichloronaphthalene - 5 - 10
1,2,3-Trichloropropane 50 300 75 450
1,1,2-Trichloro 1,2,2-trifluoroethane 1,000 7,600 1,250 9,500
Triethylamine 25 100 40 150
Tricyclohexyltinhydroxide (PlictranR) - 5 - 10
Trifluoromonobromo-methane 1,000 6,100 1,200 7,625
Trimethyl benzene 25 120 35 180
Trimethyl phosphite 0.5 2.6 1.5 7.8
2,4,6-Trinitrophenol, seePicric acid - Skin - 0.1 - 0.3
2,4,6-Trinitrophenyl-methylnitramine,see Tetryl - Skin - 1.5 - 3.0
C 2,4,6-Trinitrotoluene(TNT) - 0.5 - -
Triothocresyl phosphate - 0.1 - 0.3
Triphenyl phosphate - 3 - 6
Tungsten and compounds (as W) -        
Soluble - 1 - 3
Insoluble - 5 - 10
Turpentine 100 560 150 840
Uranium (natural) solubleand insoluble compounds (as U) - 0.2 - 0.6
Vanadium (V2O5) (as V) -Dust - 0.5 - 1.5
C Fume - 0.05 - -
Valeraldehyde 50 175 75 262
Vegetable oil mist (See Table 11)
Vinyl acetate 10 30 20 60
Vinyl benzene, see Styrene 100 420 125 525
Vinyl bromide 250 1,100 250 1,100
K Vinyl chloride (See Table 14)
Vinyl cyanide, seeAcrylonitrile - Skin 20 45 30 70
Wood dust (nonallergenic) - 5 - 10
Wood dust (allergenic) (See Table 10)
Vinyl toluene 100 480 150 720
Warfarin - 0.1 - 0.3
Welding fumes - 5.0 - 5
Xylene (o-, m-, p-isomers)- Skin 100 435 150 650
C m-Xylene a,a'-diamine - 0.1 - -
Xylidene - Skin 5 25 10 50
Yttrium - 1 - 3
Zinc chloride fume - 1 - 2
K Zinc chromate (as Cr) (See Table 14)
Zinc oxide fume - 5 - 10
Zinc oxide dust (See Table 11)
Zinc stearate (See Table 11)
Zirconium compounds (asZr) - 5 - 10

The areas in red text used in Tables 9 and 10 are not included in the offical version of these regulations but are requirements that have been approved by the director of Workplace Health and Safety. The authoritative text can be found at laws.yukon.ca. 
 
TABLE 9
Air Contaminants
  Permissible Concentrations
  8-hour Limit 15-minute Limit
Substance ppm mg/m3 ppm mg/m3
C Butyl mercaptan 3 9.3 - -
C Ethyl mercaptan 3 7.6 - -
C Methyl mercaptan 3 5.9 - -
Wood dust, allergenic (e.g., cedar, mahogany, teak) - 2.5 - 5
Gasoline2 500 625 -  
 
  Permissible Concentrations
Substance Impinger (mppef) Respirable Mass (mg/m3)
Foundry dust:
Silica sand
5 1.2d
Olivine sand 5 3.3d
  1. Approximate value as composition may vary. Concentration as measured by a combustible vapour indicator calibrated for hexane. 
  2. See footnote (c) Table 10. 
  3. See footnote (d) Table 10. 
  4. The values apply whjere the quartz content in the respirable mass is less than 0.1 mg/m3. Where this is not the case, the maximum permitted concentration for quartz, as calculated in footnote (g) Table 10 shall apply. 
TABLE 10
Mineral Dusts


(Each substance must comply with at least one of the relevant requirements as determined by the air sampling technique used).
  Permissible Concentrations (Fibres per mL)a
Substance 8-hour limit 15-minute limit
Asbestos:    
Amosite 0.2 2
Chrysotile 0.5 5
Crocidolite 0.1 -
Tremolite 0.5 5
Talc (fibrous) 0.5 5
  Permissible Concentration (8-hr. Limit)
  Column I Column II Column III
  KONIMETERb (particles/mL) IMPINGERc (mmppcf) RESPIRABLE MASSd (mg/m3)
Silica:      
Quartz, crystalline 300 (e) (g)
Cristobalite 150 (f) (1/2 quartz value)
Tridymite 150 (f) (1/2 quartz value)
Silica, fused or flour 300 (e) (quartz value)
Tripoli 300 (e) (quartz value)
Silica, amorphous 300 20 2
Diatomaceous earth 300 20 1.5
Silicates:      
Mica - 20 -
Mineral wool fibre - - 10
Perlite - 30 -
Portland Cement - 30 -
Soapstone - 20 -
Talc (nonasbestos form) - 20 -
Graphite - 20 -
Coal - - 2
  1. Fibres collected on a membrane filter held in an open-face holder and counted at 400-500 X magnification (4 mm objective - N.A. 0.65) under phase contrast illumination. Only fibres with length to breadth ratio equal to or greater than 3 to 1 and length greater than 5 micrometers to be counted.
  2. Samples counted at 150 X magnification under dark field illumination.
  3. Samples counted at 100 X magnification under light field illumination.
  4. The concentration as determined by collecting that fraction of the total airborne contaminant which passes a size selector meeting the British Research Council Criteria.
  5. Calculate maximum permitted particle count as:
    mppcf = 
    300
    %Sio2 + 10
  6. Calculate maximum permitted particle count as: 
    mppcf = 
    300
    2(%Sio2 + 10)
  7. Calculate maximum permitted respirable mass: 
     
    10 mg/m3 respirable dust collected
    % Respirable Quartz + 2
    or;
    30 mg/m3 respirable dust collected
    % Respirable Quartz + 3
     
TABLE 11
Nuisance Dust, Mists and Fumes


(Each substance contained in this table must comply with at least one of the relevant requirements).
  PERMISSIBLE CONCENTRATIONS
8 hour Limit 15-minute Limit
Impinger* (mppcf) Gravimetrict (mg/m3) Gravimetrict (mg/m3)
Alundum (A1203) 30 10 20
Calcium carbonate 30 10 20
Calcium silicate 30 10 -
Cellulose (paper fibre) 30 10 20
Corundum (Al2O3) 30 10 -
Emery 30 10 20
Glass, fibrous or dust 30b 10 -
Glycerine mist 30 10 -
Graphite (synthetic) 30 10 -
Cypsum 30 10 20
Kaolin 30 10 20
Limestone 30 10 20
Marble 30 10 20
Magnesite 30 10 20
Mineral wood fibre 30 10 -
Pentaerythritol 30 10 20
Plaster of Paris 30 10 20
Portland Cement 30 10 20
Rouge 30 10 20
Silicon 30 10 20
Silicon carbide 30 10 20
Starch 30 10 20
Sucrose 30 10 20
Tin oxide 30 10 20
Titanium dioxide 30 10 20
Zinc oxide dust 30 10 -
Vegetable oil mists(except castor, cashew nut, or similar irritating oils) - 10 -
Zinc stearate 30 10 20
TABLE 12
Asphyxiant substances which must be controlled to ensure that no atmosphere is oxygen deficient (less than 18% oxygen) at any time
Acetylene
Argon
Ethane
Ethylene
Helium
Hydrogen
Methane
Neon
Nitrogen
Propane
Propylene
TABLE 13
Maximum acceptable body burdens
Substance Maximum Concentration
  Blood
ug/100ml
Urine
ug/1*
Arcenic 50 1500
Cadmium 10 35
Lead inorganic 80 200
alkyl compounds - 160
Manganese - 75
Mercury inorganic - 500
alkyl compounds - 40
Vanadium - 150
Selenium - 300
Fluoride - 5000**
Carbon Monoxide 10% as carboxyhaemoglobin  
TABLE 14
Carcinogens with a Permitted Exposure
Substance Permissible Concentrations
8-hour Limit
ppm mg/m3
Antimony trioxide production (as SB) - 0.5
Arsenic trioxide production -    
As2O3 (as As) - 0.05
SO2C 5 -
Acrylonitrile 20 45
Benzene C 10 32
Beryllium - 0.002
Cadmium oxide production (as Cd) - 0.05
Chloroethylene (vinyl chloride) 1 2.5
Chloroform (trichloromethane) 10 50
bis-Chloromethyl ether 0.001 -
Chromite ore processing (chromate), as Cr 0.1 0.1
1,2-Dibromoethane 20 145
Dimethyl sulphate-Skin 1 5
Epichlorhydrin 5 20
Hydrazine 0.1 0.1
Lead chromate (as Cr) - 0.05
4,4’-Methylene bis (2-chloraniline)-Skin 0.02 0.02
Nickel sulfide roasting (fume and dust) as Ni - 1
2-Nitropropane 25 -
Particulate Polycylic Aromatic Hydrocarbons as benzene solubles) - 0.2
(Coal Tar Pitch Volatiles) Trichloromethane (chloroform) 10 50
Vinyl chloride (chloroethylene) 1 2.5
Zinc chromate (as Cr) - 0.05

Carcinogens

A carcinogen is an agent which when absorbed into or onto the body may initiate uncontrolled cell growth. These substances listed in this Appendix are used in industry and have proven carcinogenic in man or have induced cancer in animals under appropriate experimental conditions.
TABLE 15
Carcinogens With No Permitted Exposure

No exposure or contact means isolating the process or operation by the best practical engineering methods. The worker should be equipped with personal protective equipment to ensure virtually no contact with the carcinogen.

4-Aminodiphenyl - Skin 3,3-Dichlorobenzidine - Skin
Benzidine production - Skin 4-Nitrodiphenyl
TABLE 16

Carcinogens With No Established Permitted Concentration. Exposure to be carefully controlled and minimized.

Benzo (oo) pyrene Dimethyl carbamyl chloride
Hexamethyl phosphoramide - Skin B-Naphthylamine
B-Propiolactone N-Nitrosodimethylamine (dimethylnitrosoamine) - Skin