OSHA's Final Rule: Worker Exposure to Respirable Crystalline Silica
February 3, 2021
10:00 AM PST | 01:00 PM EST
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Product Id : 503544
Live: One Dial-in One Attendee
Corporate Live: Any number of participants
Recorded: Access recorded version, only for one participant unlimited viewing for 6 months ( Access information will be emailed 24 hours after the completion of live webinar)
Corporate Recorded: Access recorded version, Any number of participants unlimited viewing for 6 months ( Access information will be emailed 24 hours after the completion of live webinar)
Exposure to silica has been linked to lung cancer, silicosis, chronic obstructive pulmonary disease, and kidney disease in workers.
Exposures to crystalline silica dust occur in common workplace operations involving cutting, sawing, drilling, and crushing of concrete, brick, block, rock, and stone products (such as construction tasks), and operations using sand products (such as in glass manufacturing, foundries, sand blasting, and hydraulic fracturing).
Why you should Attend:
The final rule lowers the permissible exposure limit for respirable crystalline silica for all industries to 50 micrograms per cubic meter of air averaged during an 8-hour shift.
OSHA has spelled out exactly how to best protect workers. If employers follow those specifications, they can be sure that they are providing their workers with the required level of protection. That means that employers will have to implement controls and work practices that reduce workers' exposure to silica dust.
Areas Covered in the Session:
- Understand the health hazards of crystalline silica
- Recognize materials which may contain silica
- Be informed of the key provisions of the new ruling
- Understand the compliance guidance for medical surveillance
- Understand what's required to implement the key provisions of the standard
- Get an actionable guide to protecting workers from silica hazards
The webinar highlights steps employers are required to take to protect employees, including assessing workplace exposures, establishing written exposure control plans and providing worker training.
Who Will Benefit:
- Identify the health hazards of silicosis by recognizing silica materials and knowing their health hazards
- OSHA final rule regarding crystalline silica exposure and OSHA Worker Safety
- Key provisions of the new ruling
- Compliance guidance for the medical surveillance
- Categories of exposure limits
- The new permissible exposure limits (PELs) and SELs
- Industries that are impacted
- Requirement for engineering controls, administrative controls, and proper personal protective equipment
- Alternative exposure control methods - exposure assessment
- Performance option and scheduling monitoring option details
- Specified exposure control methods, and fully & properly implementing controls
- Employer assistance programs for small businesses to be compliant with the new ruling
- New medical screening and surveillance requirements
- Skilled trades
- Maintenance Technicians
- Demolition crews
- Process Technicians
- Warehouse Managers
- General Employees
- Concrete Workers, Finishers
- Gypsum Drywallers
- Painters, Compound Sanders
- EH&S Managers and Individuals with responsibilities in:
- Regulatory Affairs/Compliance
- Product Safety / Liability / Stewardship
- Risk Management / Risk Assessment
- OSHA Compliance / HAZCOM
- GHS Labelling
- Industrial Hygiene
Deidre Tate is a Certified John Maxwell Trainer, Speaker and Business Coach. Deidre's journey has included 25 years of industry experience where she’s enjoyed both domestic and international leadership roles at corporate, divisional and facility levels.
Specifically, Deidre has orchestrated business process safety improvements, environmental engineering services, Auditing and regulatory affairs for Allied-Signal (Honeywell), AstraZeneca, Syngenta (Novartis), Johnson-Matthey, PGI, Materia and Oil & Gas indutry. She also has served 3 consecutive terms on the US Coast Guard, Chemical Transportation Advisory Committee (CTAC).
Deidre holds a B.S. from Michigan State University and has completed post graduate studies in the College of Chemical Engineering at Wayne State University where she received Certification in Hazardous Waste Management.