The document provides an overview of changes to Michigan's Hazard Communication Standard to align with the Globally Harmonized System of Classification and Labeling of Chemicals (GHS). It discusses new requirements for labels, safety data sheets, and employee training. Labels will use standardized pictograms, signal words, and hazard statements. Safety data sheets will have a new 16-section format. Employers and employees must be trained on the new labeling and safety data sheet requirements by certain deadlines.
The document summarizes OSHA's Hazard Communication Standard 1910.1200. It outlines the purpose and definitions of key terms to ensure chemical hazards are evaluated and communicated. It describes requirements for written hazard programs, labels, safety data sheets, and employee training. It provides details on hazard classification and the changes made to harmonize with the global standard including new definitions, pictograms, and safety data sheet format.
The document discusses the history and development of hazard communication standards to protect workers from hazardous chemicals. It summarizes key incidents that demonstrated risks to workers and led to reforms. The document then outlines the main components of the OSHA Hazard Communication Standard, including provisions for hazard classification, requirements for a written hazard communication program, and elements that must be included on labels.
The document discusses changes to chemical labeling to comply with the Globally Harmonized System (GHS) and OSHA requirements. Under the new GHS labels, chemicals will have standardized product identifiers, signal words, hazard statements, pictograms, and precautionary statements to clearly communicate the hazards and safe handling instructions. The new labels are intended to make hazard information easier for workers to understand while protecting their safety.
The document discusses key elements of OSHA's Hazard Communication Standard including:
1) Maintaining an inventory of hazardous materials
2) Providing material safety data sheets (MSDS) with detailed information on each material
3) Properly labeling containers of hazardous materials
4) Training employees on hazardous materials identification and safe handling
5) Developing a written hazard communication program
Dangerous Cosmetics - Resources for Healthy Children www.scribd.com/doc/254613619 - For more information, Please see Organic Edible Schoolyards & Gardening with Children www.scribd.com/doc/254613963 - Gardening with Volcanic Rock Dust www.scribd.com/doc/254613846 - Double Food Production from your School Garden with Organic Tech www.scribd.com/doc/254613765 - Free School Gardening Art Posters www.scribd.com/doc/254613694 - Increase Food Production with Companion Planting in your School Garden www.scribd.com/doc/254609890 - Healthy Foods Dramatically Improves Student Academic Success www.scribd.com/doc/254613619 - City Chickens for your Organic School Garden www.scribd.com/doc/254613553 - Huerto Ecológico, Tecnologías Sostenibles, Agricultura Organica www.scribd.com/doc/254613494 - Simple Square Foot Gardening for Schools - Teacher Guide www.scribd.com/doc/254613410 - Free Organic Gardening Publications www.scribd.com/doc/254609890 ~
2014 County of Simcoe WHMIS presentationarmandosimcoe
WHMIS is Canada's national hazard communication standard, which provides information about hazardous materials used in the workplace. It has three main components - training, labels, and material safety data sheets (MSDS). The system classifies hazardous materials into six classes based on the type of hazard, with each class represented by a unique symbol. Employers are responsible for training employees about WHMIS, and employees must understand and follow WHMIS procedures to safely handle hazardous materials and protect themselves and coworkers from harm.
Compressed gases and flammable materials require careful handling and storage to prevent explosions and fires. Oxidizing materials and toxic substances can cause harm through inhalation, ingestion, or skin contact and must be properly contained and labeled. Reactive chemicals can undergo vigorous unwanted reactions if mixed incorrectly, producing harmful side effects. The Material Safety Data Sheet for each substance provides important hazard and safety information to ensure safe use and storage in the science lab.
The document summarizes OSHA's Hazard Communication Standard 1910.1200. It outlines the purpose and definitions of key terms to ensure chemical hazards are evaluated and communicated. It describes requirements for written hazard programs, labels, safety data sheets, and employee training. It provides details on hazard classification and the changes made to harmonize with the global standard including new definitions, pictograms, and safety data sheet format.
The document discusses the history and development of hazard communication standards to protect workers from hazardous chemicals. It summarizes key incidents that demonstrated risks to workers and led to reforms. The document then outlines the main components of the OSHA Hazard Communication Standard, including provisions for hazard classification, requirements for a written hazard communication program, and elements that must be included on labels.
The document discusses changes to chemical labeling to comply with the Globally Harmonized System (GHS) and OSHA requirements. Under the new GHS labels, chemicals will have standardized product identifiers, signal words, hazard statements, pictograms, and precautionary statements to clearly communicate the hazards and safe handling instructions. The new labels are intended to make hazard information easier for workers to understand while protecting their safety.
The document discusses key elements of OSHA's Hazard Communication Standard including:
1) Maintaining an inventory of hazardous materials
2) Providing material safety data sheets (MSDS) with detailed information on each material
3) Properly labeling containers of hazardous materials
4) Training employees on hazardous materials identification and safe handling
5) Developing a written hazard communication program
Dangerous Cosmetics - Resources for Healthy Children www.scribd.com/doc/254613619 - For more information, Please see Organic Edible Schoolyards & Gardening with Children www.scribd.com/doc/254613963 - Gardening with Volcanic Rock Dust www.scribd.com/doc/254613846 - Double Food Production from your School Garden with Organic Tech www.scribd.com/doc/254613765 - Free School Gardening Art Posters www.scribd.com/doc/254613694 - Increase Food Production with Companion Planting in your School Garden www.scribd.com/doc/254609890 - Healthy Foods Dramatically Improves Student Academic Success www.scribd.com/doc/254613619 - City Chickens for your Organic School Garden www.scribd.com/doc/254613553 - Huerto Ecológico, Tecnologías Sostenibles, Agricultura Organica www.scribd.com/doc/254613494 - Simple Square Foot Gardening for Schools - Teacher Guide www.scribd.com/doc/254613410 - Free Organic Gardening Publications www.scribd.com/doc/254609890 ~
2014 County of Simcoe WHMIS presentationarmandosimcoe
WHMIS is Canada's national hazard communication standard, which provides information about hazardous materials used in the workplace. It has three main components - training, labels, and material safety data sheets (MSDS). The system classifies hazardous materials into six classes based on the type of hazard, with each class represented by a unique symbol. Employers are responsible for training employees about WHMIS, and employees must understand and follow WHMIS procedures to safely handle hazardous materials and protect themselves and coworkers from harm.
Compressed gases and flammable materials require careful handling and storage to prevent explosions and fires. Oxidizing materials and toxic substances can cause harm through inhalation, ingestion, or skin contact and must be properly contained and labeled. Reactive chemicals can undergo vigorous unwanted reactions if mixed incorrectly, producing harmful side effects. The Material Safety Data Sheet for each substance provides important hazard and safety information to ensure safe use and storage in the science lab.
This document summarizes the key changes to the OSHA Hazard Communication Standard (HCS) to align it with the United Nations' Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Some of the major changes include revising definitions, adding new definitions, revising criteria for classifying health and physical hazards, requiring new labeling elements, standardizing the format and order of information on safety data sheets, and updating training requirements. The changes are aimed at improving safety by ensuring hazards of all chemicals are evaluated and communicated in a consistent, globally-understandable manner.
To cater a green environment of manufacturing industries, reponsible persons or designee, higher management, owners should go through it and implement as required as their scope for safety, health, profitable business to global customer response.
The document discusses changes to the Occupational Safety and Health Administration's (OSHA) Hazard Communication Standard to align it with the United Nations' Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Key changes include standardized definitions, hazard classification criteria, safety data sheet requirements, and new pictograms and label elements. The goal is to improve chemical safety by ensuring chemical hazards are properly evaluated and communicated to employers and employees through labels, safety data sheets, and training.
2014 County of Simcoe WHMIS presentationarmandosimcoe
WHMIS is Canada's national hazard communication standard that provides information about hazardous materials present in workplaces. It aims to ensure that employers and employees are provided with the information they need to work safely with controlled substances. The three main components of WHMIS are training programs, standardized labeling, and access to material safety data sheets. Hazardous materials must be classified into one of six hazard classes under WHMIS and proper personal protective equipment must be used when handling them.
Chemical Management System in Textile Manufacturing and Processing is required to achieve the safe use of chemicals and to control the hazards that they present to workers, the community and the environment. It can take a lot of chemicals to make clothes. The apparel sector certainly is not as chemical intensive as other global industries, but its variety of chemical operations and materials does present a range of potential hazards to its workers and the surrounding communities and environment.
This document provides an overview of OSHA's Hazard Communication Standard and chemical hazards. It discusses what constitutes a chemical hazard, physical and health hazards, and specific types of hazardous chemicals like flammables and corrosives. It describes the requirements of OSHA's Hazard Communication Standard including developing a written hazard communication program, obtaining material safety data sheets, labeling containers, and training employees. The purpose is to ensure chemical hazards are evaluated and information about those hazards is communicated to employers and employees.
This document provides information about a team project to introduce an organic cosmetics line called Sirin into the Russian market. It discusses the product concept of organic skin care products for women aged 16-55. It analyzes competitors and the Russian cosmetics market using various frameworks. Target markets are identified as consumer and reseller markets. Pricing strategies and costs are outlined. The document also covers topics like sourcing, import restrictions, distribution, marketing and risk mitigation plans.
1. A sensitive analytical method was developed to detect MDA-Val-Hyd, a specific biomarker for exposure to MDI, in human blood.
2. Application of the method to workers exposed to MDI found the biomarker present in their blood, demonstrating its ability to measure MDI exposure levels.
3. Background levels of MDA-Val-Hyd were found to be below detection limits in unexposed individuals and those with only low inhalation exposure to MDI.
Formaldehyde in Cosmetics - Resources for Healthy Children www.scribd.com/doc/254613619 - For more information, Please see Organic Edible Schoolyards & Gardening with Children www.scribd.com/doc/254613963 - Gardening with Volcanic Rock Dust www.scribd.com/doc/254613846 - Double Food Production from your School Garden with Organic Tech www.scribd.com/doc/254613765 - Free School Gardening Art Posters www.scribd.com/doc/254613694 - Increase Food Production with Companion Planting in your School Garden www.scribd.com/doc/254609890 - Healthy Foods Dramatically Improves Student Academic Success www.scribd.com/doc/254613619 - City Chickens for your Organic School Garden www.scribd.com/doc/254613553 - Huerto Ecológico, Tecnologías Sostenibles, Agricultura Organica www.scribd.com/doc/254613494 - Simple Square Foot Gardening for Schools - Teacher Guide www.scribd.com/doc/254613410 - Free Organic Gardening Publications www.scribd.com/doc/254609890 ~
The document describes the key information contained in a Material Safety Data Sheet (MSDS), including identification of the product and its ingredients, hazards identified, first aid measures, handling and storage requirements, exposure controls, physical and chemical properties, toxicological information, and disposal considerations. An MSDS provides important safety information about a product but is not a substitute for conducting a risk assessment when using chemicals. It should be consulted to help identify hazards but risk controls must be proportional to actual risk levels.
OSHA Hazard Communication and Global Harmonization System (GHS)Elena Fracassa
This training explains the recent changes to the OSHA Hazard Communication Standard, including compliance with the Global Harmonization System of hazard identification, container labeling, and Safety Data Sheets.
The document provides an overview of the Globally Harmonized System (GHS) for hazard classification and labeling presented by Sara Fineman. The GHS aims to standardize hazard classification, labels, and safety data sheets globally. It defines hazard classes and categories, and requires standardized labels with pictograms, signal words, and hazard and precautionary statements. Safety data sheets must also follow a specified 16-section format. Employers have until 2016 to update their hazard communication programs, labels, and training to comply with the new GHS requirements.
The document discusses the Globally Harmonized System (GHS) for classifying and labeling chemicals. The GHS aims to standardize hazard communication by having consistent criteria for classification of health, physical and environmental hazards, as well as standardized labels and safety data sheets. This will help facilitate international trade by eliminating the need for multiple labels and safety data sheets in different countries. It will also help protect workers by ensuring they receive consistent information about chemical hazards no matter where in the world they are located.
The Hazard Communication standard establishes requirements to ensure information about chemical hazards is provided to employers and employees. It was originally ordered by Congress in 1985 and updated in 2012 to align with the Global Harmonization System. The standard covers definitions, hazard classification, written hazard communication programs, labeling, safety data sheets, and employee training requirements. It aims to ensure hazards of chemicals are evaluated and hazard information is transmitted to protect worker safety.
The document discusses the Globally Harmonized System (GHS) for classifying and labeling chemicals. The GHS aims to standardize chemical labeling and safety data sheets internationally in order to improve safety communication. It provides a common set of pictograms, signal words, hazard statements and safety precautions. The US adopted the GHS through revisions to its Hazard Communication Standard. The GHS system includes standardized criteria for classifying health, physical and environmental hazards, as well as a 16-section format for safety data sheets. Full implementation in the US workplace is required by June 2016.
The document discusses the Globally Harmonized System (GHS) for classifying and labeling chemicals. GHS aims to standardize chemical hazard communication globally in order to reduce costs and confusion. It covers classification of chemical hazards, and communication of hazards through standardized labels and safety data sheets. Major elements include standardized criteria for classifying health, physical and environmental hazards, and standardized formats for labels and safety data sheets to communicate hazard information. Implementation timelines and changes to WHMIS in Canada to harmonize with GHS are also covered.
Hazcom including ghs revisions-silps 2013-6-4-2013 showkjones9999
The document summarizes the key changes and requirements of the revised OSHA Hazard Communication Standard, which aligns with the UN's Globally Harmonized System of Classification and Labeling of Chemicals (GHS). The major changes require new standardized labeling elements including product identifiers, signal words, pictograms, hazard and precautionary statements. Safety Data Sheets are now called Safety Data Sheets and also have a standardized 16-section format. Employers must train workers on the new label elements and SDS format to improve understanding of chemical hazards.
Chemical Safety Guidelines with hazard and risk controlsDecentN
This course briefly covers chemical hazard and risk associated with appropriate safety controls. This presentation also cover chemical labeling and classification as per GHS system.
This document provides guidance on chemical safety practices, including hazard identification, labeling, storage, handling, and spill response. It summarizes the Globally Harmonized System for classifying chemicals and describes the new standardized label elements. The document outlines procedures for performing a chemical hazard assessment, applying proper controls, and responding to spills. Personnel are instructed to take various protective measures, such as using engineering controls, following administrative controls, and wearing personal protective equipment when working with chemicals.
The document discusses changes to the Hazard Communication Standards (HazCom) to align with the Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Key changes include new pictograms, signal words, and hazard and precautionary statements on Safety Data Sheets and labels. Employers must train employees on the new formats by December 1, 2013 and complete the transition to be fully GHS compliant by June 1, 2016. The changes aim to improve safety for workers exposed to chemicals globally through standardized labeling and classification.
HazCom 2012 Changes Introduced by the GHS: Upcoming Changes and Your Responsi...Sarah Sajedi
The June 1, 2015 GHS Compliance deadline introduces some changes to hazard communication sheets (SDSs) and labels. This presentation outlines the changes to hazard communication you should expect as well as your responsibilities.
This document summarizes the key changes to the OSHA Hazard Communication Standard (HCS) to align it with the United Nations' Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Some of the major changes include revising definitions, adding new definitions, revising criteria for classifying health and physical hazards, requiring new labeling elements, standardizing the format and order of information on safety data sheets, and updating training requirements. The changes are aimed at improving safety by ensuring hazards of all chemicals are evaluated and communicated in a consistent, globally-understandable manner.
To cater a green environment of manufacturing industries, reponsible persons or designee, higher management, owners should go through it and implement as required as their scope for safety, health, profitable business to global customer response.
The document discusses changes to the Occupational Safety and Health Administration's (OSHA) Hazard Communication Standard to align it with the United Nations' Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Key changes include standardized definitions, hazard classification criteria, safety data sheet requirements, and new pictograms and label elements. The goal is to improve chemical safety by ensuring chemical hazards are properly evaluated and communicated to employers and employees through labels, safety data sheets, and training.
2014 County of Simcoe WHMIS presentationarmandosimcoe
WHMIS is Canada's national hazard communication standard that provides information about hazardous materials present in workplaces. It aims to ensure that employers and employees are provided with the information they need to work safely with controlled substances. The three main components of WHMIS are training programs, standardized labeling, and access to material safety data sheets. Hazardous materials must be classified into one of six hazard classes under WHMIS and proper personal protective equipment must be used when handling them.
Chemical Management System in Textile Manufacturing and Processing is required to achieve the safe use of chemicals and to control the hazards that they present to workers, the community and the environment. It can take a lot of chemicals to make clothes. The apparel sector certainly is not as chemical intensive as other global industries, but its variety of chemical operations and materials does present a range of potential hazards to its workers and the surrounding communities and environment.
This document provides an overview of OSHA's Hazard Communication Standard and chemical hazards. It discusses what constitutes a chemical hazard, physical and health hazards, and specific types of hazardous chemicals like flammables and corrosives. It describes the requirements of OSHA's Hazard Communication Standard including developing a written hazard communication program, obtaining material safety data sheets, labeling containers, and training employees. The purpose is to ensure chemical hazards are evaluated and information about those hazards is communicated to employers and employees.
This document provides information about a team project to introduce an organic cosmetics line called Sirin into the Russian market. It discusses the product concept of organic skin care products for women aged 16-55. It analyzes competitors and the Russian cosmetics market using various frameworks. Target markets are identified as consumer and reseller markets. Pricing strategies and costs are outlined. The document also covers topics like sourcing, import restrictions, distribution, marketing and risk mitigation plans.
1. A sensitive analytical method was developed to detect MDA-Val-Hyd, a specific biomarker for exposure to MDI, in human blood.
2. Application of the method to workers exposed to MDI found the biomarker present in their blood, demonstrating its ability to measure MDI exposure levels.
3. Background levels of MDA-Val-Hyd were found to be below detection limits in unexposed individuals and those with only low inhalation exposure to MDI.
Formaldehyde in Cosmetics - Resources for Healthy Children www.scribd.com/doc/254613619 - For more information, Please see Organic Edible Schoolyards & Gardening with Children www.scribd.com/doc/254613963 - Gardening with Volcanic Rock Dust www.scribd.com/doc/254613846 - Double Food Production from your School Garden with Organic Tech www.scribd.com/doc/254613765 - Free School Gardening Art Posters www.scribd.com/doc/254613694 - Increase Food Production with Companion Planting in your School Garden www.scribd.com/doc/254609890 - Healthy Foods Dramatically Improves Student Academic Success www.scribd.com/doc/254613619 - City Chickens for your Organic School Garden www.scribd.com/doc/254613553 - Huerto Ecológico, Tecnologías Sostenibles, Agricultura Organica www.scribd.com/doc/254613494 - Simple Square Foot Gardening for Schools - Teacher Guide www.scribd.com/doc/254613410 - Free Organic Gardening Publications www.scribd.com/doc/254609890 ~
The document describes the key information contained in a Material Safety Data Sheet (MSDS), including identification of the product and its ingredients, hazards identified, first aid measures, handling and storage requirements, exposure controls, physical and chemical properties, toxicological information, and disposal considerations. An MSDS provides important safety information about a product but is not a substitute for conducting a risk assessment when using chemicals. It should be consulted to help identify hazards but risk controls must be proportional to actual risk levels.
OSHA Hazard Communication and Global Harmonization System (GHS)Elena Fracassa
This training explains the recent changes to the OSHA Hazard Communication Standard, including compliance with the Global Harmonization System of hazard identification, container labeling, and Safety Data Sheets.
The document provides an overview of the Globally Harmonized System (GHS) for hazard classification and labeling presented by Sara Fineman. The GHS aims to standardize hazard classification, labels, and safety data sheets globally. It defines hazard classes and categories, and requires standardized labels with pictograms, signal words, and hazard and precautionary statements. Safety data sheets must also follow a specified 16-section format. Employers have until 2016 to update their hazard communication programs, labels, and training to comply with the new GHS requirements.
The document discusses the Globally Harmonized System (GHS) for classifying and labeling chemicals. The GHS aims to standardize hazard communication by having consistent criteria for classification of health, physical and environmental hazards, as well as standardized labels and safety data sheets. This will help facilitate international trade by eliminating the need for multiple labels and safety data sheets in different countries. It will also help protect workers by ensuring they receive consistent information about chemical hazards no matter where in the world they are located.
The Hazard Communication standard establishes requirements to ensure information about chemical hazards is provided to employers and employees. It was originally ordered by Congress in 1985 and updated in 2012 to align with the Global Harmonization System. The standard covers definitions, hazard classification, written hazard communication programs, labeling, safety data sheets, and employee training requirements. It aims to ensure hazards of chemicals are evaluated and hazard information is transmitted to protect worker safety.
The document discusses the Globally Harmonized System (GHS) for classifying and labeling chemicals. The GHS aims to standardize chemical labeling and safety data sheets internationally in order to improve safety communication. It provides a common set of pictograms, signal words, hazard statements and safety precautions. The US adopted the GHS through revisions to its Hazard Communication Standard. The GHS system includes standardized criteria for classifying health, physical and environmental hazards, as well as a 16-section format for safety data sheets. Full implementation in the US workplace is required by June 2016.
The document discusses the Globally Harmonized System (GHS) for classifying and labeling chemicals. GHS aims to standardize chemical hazard communication globally in order to reduce costs and confusion. It covers classification of chemical hazards, and communication of hazards through standardized labels and safety data sheets. Major elements include standardized criteria for classifying health, physical and environmental hazards, and standardized formats for labels and safety data sheets to communicate hazard information. Implementation timelines and changes to WHMIS in Canada to harmonize with GHS are also covered.
Hazcom including ghs revisions-silps 2013-6-4-2013 showkjones9999
The document summarizes the key changes and requirements of the revised OSHA Hazard Communication Standard, which aligns with the UN's Globally Harmonized System of Classification and Labeling of Chemicals (GHS). The major changes require new standardized labeling elements including product identifiers, signal words, pictograms, hazard and precautionary statements. Safety Data Sheets are now called Safety Data Sheets and also have a standardized 16-section format. Employers must train workers on the new label elements and SDS format to improve understanding of chemical hazards.
Chemical Safety Guidelines with hazard and risk controlsDecentN
This course briefly covers chemical hazard and risk associated with appropriate safety controls. This presentation also cover chemical labeling and classification as per GHS system.
This document provides guidance on chemical safety practices, including hazard identification, labeling, storage, handling, and spill response. It summarizes the Globally Harmonized System for classifying chemicals and describes the new standardized label elements. The document outlines procedures for performing a chemical hazard assessment, applying proper controls, and responding to spills. Personnel are instructed to take various protective measures, such as using engineering controls, following administrative controls, and wearing personal protective equipment when working with chemicals.
The document discusses changes to the Hazard Communication Standards (HazCom) to align with the Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Key changes include new pictograms, signal words, and hazard and precautionary statements on Safety Data Sheets and labels. Employers must train employees on the new formats by December 1, 2013 and complete the transition to be fully GHS compliant by June 1, 2016. The changes aim to improve safety for workers exposed to chemicals globally through standardized labeling and classification.
HazCom 2012 Changes Introduced by the GHS: Upcoming Changes and Your Responsi...Sarah Sajedi
The June 1, 2015 GHS Compliance deadline introduces some changes to hazard communication sheets (SDSs) and labels. This presentation outlines the changes to hazard communication you should expect as well as your responsibilities.
This document outlines the requirements of the Los Angeles Unified School District's Hazard Communication Program. It is designed to protect employees from hazardous chemicals by informing them of chemical hazards and providing training. The program requires a written plan, material safety data sheets, labeling of chemicals, an inventory, and employee training. Training covers hazards of chemicals used on site, protective measures, the labeling system, and documentation is required.
This document discusses changes to the Globally Harmonized System (GHS) for classifying and labeling chemicals. It summarizes the history of the GHS, major changes under GHS such as switching from Material Safety Data Sheets (MSDS) to Safety Data Sheets (SDS) with a standardized 16-section format, new hazard classification criteria and pictograms, and differences between GHS and EPA requirements for pesticide products. While the SDS replaces the MSDS, both may need to be maintained for pesticides to ensure compliance with OSHA and EPA regulations. The primary goal of GHS is improved safety through consistent chemical hazard information globally.
If You Handle Chemicals What You Need To Know.pptxPestCEUs1
This document provides information on hazard communication standards and safety data sheets. It discusses the requirements for labels on hazardous chemicals, including pictograms, signal words, hazard and precautionary statements. It also outlines the 16 sections that make up a safety data sheet, including sections covering product identification, hazards, composition, safe handling/storage, exposure controls, physical/chemical properties, stability and reactivity. Employers have until June 1, 2016 to update their hazard communication programs and ensure all labels and safety data sheets comply with revised global standards.
Ghs compliance-toolkit-from-p bar y safety consultantsTerry Penney
The document provides information on the new Canadian GHS requirements for hazard classification, labels, and safety data sheets (SDS).
Major changes include requiring manufacturers to classify hazards of chemicals, provide labels with signal words, pictograms and hazard/precautionary statements, and SDS with 16 specific sections to ensure consistency.
Employers must train workers on the new label elements and SDS format by June 2015, and labels must be maintained legibly. Workplace labels can display the required information or product identifier with words/symbols to identify hazards. SDS must follow a standardized 16-section format providing identification, hazard, composition and safe handling information.
Master understanding ghs for workers (eng) just ghsJessee McClellan
The document provides information about the Globally Harmonized System of Classification and Labeling of Chemicals (GHS). It was developed by the United Nations to standardize chemical hazard communication across countries. GHS harmonizes criteria for classifying chemicals and ensures chemical hazards are communicated to workers through standardized labels, safety data sheets, and training. It enhances the US Hazard Communication Standard by introducing standardized label elements, pictograms, and a 16-section safety data sheet format. The document outlines employees' responsibilities to read labels and safety data sheets, use personal protective equipment, know the locations of safety equipment, and understand chemical hazards and precautions.
The document discusses the history of hazard communication standards and regulations. It provides examples of safety data sheet formats and required elements. It also summarizes some notable industrial accidents and exposures that occurred between 1906-2015 that helped drive the development of standards and regulations to protect workers from chemical hazards.
Globally Harmonized System of Classification and Labelling of Chemicals (CLASS)Jau Robert
A common & coherent (consistent) approach to
defining & classifying hazards, & a system to
ensure consistent world-wide hazard
communication through uniform hazard
information on labels & safety data sheets
What is the GHS?
As a response to the multiple definitions of hazard and multiple ways of communicating these hazards, the United Nations adopted the Globally Harmonized System for Classification and Labeling of Chemicals (GHS) in 2003. OSHA’s revised Hazard Communication Standard has presented manufacturers, formulators and distributors with the challenge of revising their Safety Data Sheets (SDSs) and the product labels by June 1, 2015.
The document outlines changes to the OSHA Hazard Communication Standard in 2012 to align it with the Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Key changes include a standardized approach to classifying chemical hazards, new standardized label elements consisting of pictograms, signal words, hazard and precautionary statements, and a new 16-section format for Safety Data Sheets. Employers must train workers on the new standards by certain deadlines and transition chemical labeling and Safety Data Sheets to the GHS format between 2015 and 2016.
GridMate - End to end testing is a critical piece to ensure quality and avoid...ThomasParaiso2
End to end testing is a critical piece to ensure quality and avoid regressions. In this session, we share our journey building an E2E testing pipeline for GridMate components (LWC and Aura) using Cypress, JSForce, FakerJS…
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!SOFTTECHHUB
As the digital landscape continually evolves, operating systems play a critical role in shaping user experiences and productivity. The launch of Nitrux Linux 3.5.0 marks a significant milestone, offering a robust alternative to traditional systems such as Windows 11. This article delves into the essence of Nitrux Linux 3.5.0, exploring its unique features, advantages, and how it stands as a compelling choice for both casual users and tech enthusiasts.
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Lara miosha ghs_training_408844_7
1. Prepared by
Consultation Education & Training (CET) Division
Michigan Occupational Safety & Health Administration
Michigan Department of Licensing and Regulatory Affairs
www.michigan.gov/miosha
(517) 322-1809
(Revised: 08/23/13)
2. Agenda
Overview of changes to the MIOSHA Part 42, 92 and
430: Hazard Communication Standard (Haz Com)
Labeling requirements
Safety Data Sheets (SDS) format – 16 sections
Supplemental Employee Training (to be provided
by employer)
3. Why the Change to Haz Com?
To align with the Globally Harmonized
System of Classification and Labeling of
Chemicals (GHS) adopted by 67 nations
To provide a common and coherent
approach to classifying chemicals
• Reduce confusion and increase
understanding of the hazards
• Facilitate training
• Help address literacy problems
4. Who is Affected?
Manufacturers, Distributors, Importers
Change SDS information and format
Change container labeling
Employers
Training employees on changes to:
SDS (change from MSDS to SDS and 16-section format)
Container Labels (including secondary containers)
Employees
Recognize and understand hazards based on:
Information in new SDS format
Pictograms on container labels
Precautionary and hazard statements
5. Other Standards Affected – Health
(signage requirements)
Asbestos
Carcinogens
Vinyl Chloride
Inorganic Arsenic
Lead
Cadmium
Benzene
Coke Oven Emissions
Acrylonitrile
Ethylene Oxide
Formaldehyde
Methylenedianiline
DANGER
WARNING
LEAD WORK AREA
POISON
NO SMOKING OR EATING
New Sign
“LEAD”
LEAD
MAY DAMAGE FERTILITY
OR THE UNBORN CHILD
CAUSES DAMAGE TO THE
CENTRAL NERVOUS
SYSTEM
DO NOT EAT, DRINK OR
SMOKE IN THIS AREA
6. Other Standards Affected
Flammable and Combustible Liquids
Spray Finishing using Flammable and
Combustible Materials
Process Safety Management of Highly Hazardous
Chemicals (PSM)
Hazardous Waste Operations and Emergency
Response (HAZWOPER)
Hazardous Work In Laboratories
Dipping and Coating Operations
Welding, Cutting and Brazing
Employee Medical Records and Trade Secrets
7. Effective Dates and Requirements
Effective Completion
Date
Requirement(s)
Responsible Party
December 1, 2013
Train employees on the new label
elements and SDS format
Employers
June 1, 2015
Compliance with all modified provisions
of the final rule except:
Chemical
manufacturers,
importers, distributors,
and employers
December 1, 2015
The distributor shall not ship containers
labeled by the chemical manufacturer or
importer unless it is a GHS label
Distributor
June 1, 2016
Update alternative workplace labeling
and hazard communication program as
necessary, and provide additional
employee training for newly identified
hazards [and affected vertical standard
specific signage]
Employer
Transition Period: 12/2012
to the effective completion
dates noted above
May comply with either MIOSHA Part 42,
92 and 430 (final standard), or the
current standard, or both
Chemical
manufacturers,
importers, distributors,
and employers
8. Chemical Classifications
Chemicals will be classified using a
harmonized system that provides standardized
language for:
Health Hazard Categories
Physical Hazard Categories
Environmental Hazard Categories*
*Not regulated by MIOSHA.
9. Chemical Classifications:
Health Hazards
Acute Toxicity
Skin Corrosion/Irritation
Respiratory or Skin Sensitization
Germ Cell Mutagenicity
Carcinogenicity
Reproductive Toxicity
Specific Target Organ Toxicity – Single Exposure
Specific Target Organ Toxicity – Repeated Exposure
Aspiration
Simple Asphyxiants
10. Chemical Classifications:
Health Hazards
Hazard Class
Acute toxicity
Skin Corrosion/Irritation
Serious Eye Damage/Eye Irritation
Respiratory or Skin Sensitization
Germ Cell Mutagenicity
Carcinogenicity
Reproductive Toxicity
Specific Target Organ Toxicity – Single Exposure
Specific Target Organ Toxicity – Repeated Exposure
Aspiration
Simple Asphyxiants
Hazard Category
1
1A
1
1
1A
1A
1A
2
1B
2A
3
1C
2B
1B
1B
1B
2
2
2
1
2
3
1
2
1
Single Category
4
2
Lactation
14. Chemical Classifications:
Physical Hazards
Hazard Class
Explosives
Flammable Gases
Flammable Aerosols
Oxidizing Gases
Gases under Pressure
Compressed gases
Liquefied gases
Refrigerated liquefied gases
Dissolved gases
Flammable Liquids
Flammable Solids
Self-Reactive Chemicals
Pyrophoric Liquids
Pyrophoric Solids
Pyrophoric Gases
Self-Heating Chemicals
Chemicals in which contact with
water emit flammable gases
Oxidizing Liquids
Oxidizing Solids
Organic Peroxides
Corrosive to Metals
Combustible Dust
Unstable
Explosives
1
1
1
Hazard Category
Div 1.1
Div 1.2
Div 1.3
Div 1.4
Div 1.5
Div 1.6
3
4
Type C
Type D
Type E
Type F
Type G
Type D
Type E
Type F
Type G
2
2
1
1
1
Type A
1
1
Single Category
1
2
2
Type B
1
2
3
1
1
Type A
1
2
2
Type B
3
3
Type C
Single Category
2
15. Labels
There are several new
label elements:
Symbols called
“Pictograms”
Signal Words
Hazard Statements
Precautionary
Statements
Product Identification
Supplier/Manufacturer
Identification
www.osha.gov/Publications/HazComm_QuickCard_Labels.htm
16. Labels: Shipping
Shipping Container Label
(55 gallon/200 liter drum)
Effective June 1, 2015 all
shipping labels will be
required to have all GHS
label elements
Pictograms within
DOT label
DOT Shipping
Flammable liquids,
toxic, n.o.s.
(contains XYZ)
UN 1992
18. DOT and MIOSHA Labels
DOT labels may take precedence over similar GHS
pictograms for shipping containers.
DOT does not have labels that correspond to the
“Health Hazard” or the “Acute Toxicity” (less
severe = exclamation mark).
19. Labels: Pictograms
There are 9 pictograms. Only 8 are regulated by
MIOSHA
Health Hazards
Physical Hazards
Environmental Hazards (Regulated by DEQ)
DEQ
23. Labels: Pictograms – Physical
Hazards
(continued)
Corrosive to Metals
Oxidizer
Gases under Pressure
24. Labels: Signal Word
These are words used to indicate the severity of the
hazard and alert employees to the potential hazard.
Only 2 signal words will appear:
“DANGER”(more severe hazard)
“WARNING” (less severe hazard)
Not all labels will have a signal word. Some chemicals
are not hazardous enough to require that a signal word
appear on the label.
25. Labels: Hazard Statement
There are specific hazard statements that must appear
on the label based on the chemical hazard
classification.
Examples:
Flammable liquid and vapor
Causes skin irritation
May cause cancer
26. Labels and other forms of warning –
Precautionary Statements
Recommended measures related to:
Prevention
Response
Storage
Disposal
Examples:
Wear respiratory protection
Wash with soap and water
Store in a well ventilated place
Not a mandate for employers/employees to follow.
28. Label: Other information
Other information that may be included on the label:
Physical state
Color
Hazards not otherwise classified
Route of exposure
Storage and disposal
Hazard prevention and emergency
response instructions
29. Pictograms
(Flammable and Acute Toxicity – Severe)
ToxiFlam (Contains: XYZ)
Product Identifier
Signal Word
Danger!
Toxic If Swallowed, Flammable Liquid and Vapor Hazard Statements
Do not eat, drink or use tobacco when using this product. Wash hands thoroughly after handling. Keep container
tightly closed. Keep away from heat/sparks/open flame. - No smoking. Wear protective gloves and eye/face
protection. Ground container and receiving equipment. Use explosion-proof electrical equipment. Take
precautionary measures against static discharge.
Use only non-sparking tools. Store in cool/well-ventilated place.
IF SWALLOWED: Immediately call a POISON CONTROL CENTER or doctor/physician. Rinse mouth.
Precautionary
In case of fire, use water fog, dry chemical, CO2, or "alcohol" foam.
Statements
Supplemental
Information
See Safety Data Sheet for further details regarding safe use of this product.
MyCompany, MyStreet, MyTown NJ 00000, Tel: 444 966 6666 Supplier Identification
30. Secondary Container Labels
Excerpt from the Hazard Communication Standard (f):
(6) Workplace labeling. Except as provided in paragraphs (7) and (8)
of this section, the employer shall ensure that each container of
hazardous chemicals in the workplace is labeled, tagged or marked with
either:
(i) The information specified under paragraphs (1)(i) through (v) of
this section for labels on shipped containers [GHS Label]; or,
(ii) Product identifier and words, pictures, symbols, or combination
thereof, which provide at least general information regarding the
hazards of the chemicals, and which, in conjunction with the other
information immediately available to employees under the hazard
communication program, will provide employees with the specific
information regarding the physical and health hazards of the hazardous
chemical [e.g. HMIS, NFPA or other label system].
31. Labels: Secondary containers
Must be consistent with the revised Haz Com
standard
No conflicting hazard warnings or pictograms.
May use written materials (e.g., signs, placards,
etc.) in lieu of affixing labels to individual
stationary process containers.
Employer can use GHS compliant labels (same as
shipping).
HMIS Label
HEALTH
FIRE
PHYSICAL HZ
PPE
NFPA Label
Must include notation
of chronic health
effects
32. Safety Data Sheets
Under the new Haz Com
Standard, Material Safety Data
Sheets (MSDS) are now called
Safety Data Sheets (SDS).
All SDSs will have a consistent
16-section format.
Employers must ensure that
SDSs are readily accessible to
employees.
Safety
Material
Data
Safety
Sheets
Data
Sheets
33. Safety Data Sheets (SDSs)
New 16-section standardized SDS format required (ANSI Z400.1)
Section 1 – Identification
Section 2 – Hazard(s) identification
Section 10 – Stability and Reactivity
Section 11 – Toxicological Information
Section 3 – Composition / Information
on Ingredients
Section 12 – Ecological Information*
Section 4 – First-aid Measures
Section 5 – Fire-fighting Measures
Section 6 – Accidental Release
Measures
Section 7 – Handling and Storage
Section 8 – Exposure Controls /
Personal Protection
Section 9 – Physical and Chemical
Properties
Section 13 – Disposal Consideration*
Section 14 – Transport Information*
Section 15 – Regulatory Information*
Section 16 – Other information
including date of preparation of last
revision
*Sections outside of MIOSHA
jurisdiction but inclusion of
these sections is necessary
for a GHS compliant SDS
34. Safety Data Sheets (continued)
Section 1 – Identification:
Identifies the chemical on the SDS as well as the
recommended uses. It also provides the essential
contact information of the supplier.
Section 2 - Hazards Identification:
Hazards of the chemical presented on the SDS
Appropriate warning information associated with
those hazards.
35. Safety Data Sheets (continued)
Section 3 – Composition / Ingredients:
Identifies the ingredient(s) contained in the product
indicated on the SDS, including:
impurities and stabilizing additives.
information on substances, mixtures, and all
chemicals where a trade secret is claimed.
Section 4 - First-Aid Measures:
Describes the initial care that should
be given by untrained responders to an
individual who has been exposed to the chemical.
36. Safety Data Sheets (continued)
Section 5 – Fire-Fighting Measures:
Provides recommendations for
fighting a fire caused by the
chemical.
Section 6 - Accidental Release Measures:
Provides recommendations:
Appropriate response to spills, leaks, or releases, (e.g.
containment and cleanup practices)
Response for large vs. small spills, if different.
37. Safety Data Sheets (continued)
Section 7 – Handling and Storage:
Provides guidance on the safe handling
practices and conditions for safe storage of
chemicals.
Section 8 – Exposure Controls /
Personal Protection:
Indicates the exposure limits, engineering
controls, and personal protective measures
that can be used to minimize worker exposure.
38. Safety Data Sheets (continued)
Section 9 – Physical and Chemical Properties:
Identifies physical and chemical properties associated
with the substance or mixture.
Section 10 – Stability and Reactivity
Describes the reactivity hazards of the chemical and
the chemical stability information. Includes:
reactivity, chemical stability,
and other.
39. Safety Data Sheets (continued)
Section 11 - Toxicological Information:
Identifies toxicological and health effects information
or indicates is data unavailable.
Section 12 – Ecological Information*
Section 13 – Disposal Consideration*
Section 14 – Transport Information*
Section 15 – Regulatory Information*
*Sections are outside of MIOSHA jurisdiction but
must be included for a GHS compliant SDS.
40. Safety Data Sheets (continued)
Section 16 – Other Information
Indicates when the SDS was prepared or when the last
known revision was made.
The SDS may also state where the changes have been
made to the previous version.
43. Has the following been provided
by the employer?
Employers must provide employees with the details of
the facility specific hazard communication program:
Location and availability of written program and SDSs
Specific information related to chemicals in the facility:
Physical
Hazards;
Health Hazards;
Hazards not otherwise classified.
44. Has the following been provided
by the employer? (continued)
Chemical list, location and use of
hazardous chemicals
Secondary container labeling system
Specific procedures to follow to
protect employees from the chemical
hazard
Methods used to detect the presence
or release of hazardous chemicals
(sensor alarms, odors, visual other
monitoring devices)
?
45. Federal OSHA Resources
Haz Com Web Page - www.osha.gov/dsg/hazcom/index.html
Regulatory
Haz Com 2012 Final Rule
Haz Com Comparison:
Haz Com 1994 and 2012
Side-by-side
Redline Strikeout of the
Regulatory Text
FAQs
Guidance
OSHA Briefs
Fact Sheet
Quick Cards
Labeling
Safety Data Sheets
Pictograms
Effective Dates
OSHA Guide to GHS
www.osha.gov/dsg/hazcom/ghs.html
GHS documents (links to purple
book)
46. MIOSHA Resources
GHS Webpage on MIOSHA Website
www.michigan.gov/lara/0,4601,7-154-61256_11407284831--,00.html
Employee Training PowerPoint
CET library handouts:
CET-5531 - GHS Overview of Major Changes
CET-5532 – Lists other affected Standards
CET-5533 – Signage Changes
CET DVDs/Video Lending library services
State-wide Outreach seminars
Guidance documents & Revised posters
47. Training Summary
Today’s training program included:
Overview of changes to the MIOSHA Part 42, 92
and 430: Hazard Communication Standard (Haz
Com)
Labeling requirements
Safety Data Sheets (SDS) format – 16 categories
Details of the facility specific hazard
communication program
Resources
48. Questions
Contact MIOSHA for information or assistance:
MIOSHA Consultation Education and Training
7150 Harris Drive, P.O. Box 30643
Lansing, Michigan 48909-8143
(517) 322-1809
www.michigan.gov/miosha
Editor's Notes
{"38":"Section 9\nThe minimum required information consists of:\n• Appearance (physical state, color, etc.); • Upper/lower flammability or explosive limits;\n• Odor;• Vapor pressure;\n• Odor threshold; • Vapor density;\n• pH; • Relative density;\n• Melting point/freezing point; • Solubility(ies);\n• Initial boiling point and boiling range; • Partition coefficient: n-octanol/water;\n• Flash point; • Auto-ignition temperature;\n• Evaporation rate; • Decomposition temperature; and\n• Flammability (solid, gas); • Viscosity.\nThe SDS may not contain every item on the above list because information may not be relevant or is not available. When this occurs, a notation to that effect must be made for that chemical property. Manufacturers may also add other relevant properties, such as the dust deflagration index (Kst) for combustible dust, used to evaluate a dust’s explosive potential.\nSection 10\nThe required information consists of:\nReactivity\n• Description of the specific test data for the chemical(s). This data can be for a class or family of the chemical if such data adequately represent the anticipated hazard of the chemical(s), where available.\nChemical stability\n• Indication of whether the chemical is stable or unstable under normal ambient temperature and conditions while in storage and being handled.\n• Description of any stabilizers that may be needed to maintain chemical stability.\n• Indication of any safety issues that may arise should the product change in physical appearance.\nOther\n• Indication of the possibility of hazardous reactions, including a statement whether the chemical will react or polymerize, which could release excess pressure or heat, or create other hazardous conditions. Also, a description of the conditions under which hazardous reactions may occur.\n• List of all conditions that should be avoided (e.g., static discharge, shock, vibrations, or environmental conditions that may lead to hazardous conditions).\n• List of all classes of incompatible materials (e.g., classes of chemicals or specific substances) with which the chemical could react to produce a hazardous situation.\n• List of any known or anticipated hazardous decomposition products that could be produced because of use, storage, or heating. (Hazardous combustion products should also be included in Section 5 (Fire-Fighting Measures) of the SDS.)\n","27":"Definition of product identifier:\n"Product identifier" means the name or number used for a hazardous chemical on a label or in the SDS. It provides a unique means by which the user can identify the chemical. The product identifier used shall permit cross-references to be made among the list of hazardous chemicals required in the written hazard communication program, the label and the SDS.\n","16":"Note the difference in the shipping label compared to the container label on the previous slide. Department of Transportation (DOT) requires that additional information be noted on shipping containers. See bottom right corner of the label for shipping.\nMIOSHA requires that employees are knowledgeable of both the container and shipping labels.\n","5":"This slide lists the other MIOSHA standards that are affected by the changes adopted in the 2012 Haz Com. \nLanguage on required signs in the listed standards, will be harmonized with Haz Com and GHS.\nFor example the sign for lead will be changed as noted above.\nChromium (VI) does not appear to have any changes.\nRefer to the signage handout (CET-5533) or the GHS page on the MIOSHA website, for additional information on signage requirements.\nhttp://www.michigan.gov/documents/lara/lara_miosha_cet5533_402987_7.docx\nNote: Label requirements for substance specific standards must be completed on or by June 1, 2015.\nExample: Asbestos pipe wrap (thermal system insulation) label must have be new language and placed by June 1, 2015, but the sign for the regulated area (area under abatement) must be updated by June 1, 2016. \n","44":"Employee training requirements have been met if the employer has provided the contents of this training program including the facility specific supplemental training.\n","33":"Manufacturers, importers and distributers may begin using the new 16-section format SDS during the transition from the 1994 Haz Com standard and the final 2012 Haz Com standard but no later than June 1, 2015. They are required to provide a revised copy of the MSDS/SDS to the employer anytime changes are made.\nEmployers are required to maintain copies of all SDSs for the chemicals used and/or stored within the work area. They should have a system to ensure all SDSs are present/accounted and to periodically check for the most current SDS (usually based on revision date) when received from a manufacturer, importer or distributer. \nThe employer is to maintain a copy of the most current SDS and archive prior MSDSs/SDSs. SDSs are to be accessible/available to employees.\nAppendix D provides additional requirements for the information to be included under each section heading.\nSection 1 requires restriction(s) on use.\nSection 2 requires: Classification Signal word, symbols, hazard and precautionary statements, Hazards not otherwise classified, Unknown toxicity statements when 1% or more of the components has unknown toxicity. “X percent of the mixture consists of ingredients of unknown toxicity.”\nSection 3 requires percentage.\nMIOSHA will not enforce sections 12 – 15.\nSections 12-15 are not regulated by MIOSHA. Check with the Michigan Department of Environmental Quality (DEQ) for any employee training requirements for these sections. DEQ Environmental Assistance Center can be reached at (800) 662-9278 from 8 a.m. to 4:30 p.m., Monday through Friday or email: [email_address]\n","22":"The next 2 slides (4 pictograms) represent physical hazards.\n","11":"Each of the chemical physical classifications are further defined and described in Appendix B of the Haz Com Standard.\nAppendix B is to be used by manufacturers, importers and distributers to determine if any of their products are classified as a physical hazard. If the product is classified as a physical hazard in one or more of the physical hazard classifications, Appendix B is used to determine the severity of the hazard (or hazard category). \n","39":"Section 11\nThe required information consists of:\n• Information on the likely routes of exposure (inhalation, ingestion, skin and eye contact).\nThe SDS should indicate if the information is unknown.\n• Description of the delayed, immediate, or chronic effects from short- and long-term exposure.\n• The numerical measures of toxicity (e.g., acute toxicity estimates such as the LD50 (median\nlethal dose)) - the estimated amount [of a substance] expected to kill 50% of test animals in a\nsingle dose.\n• Description of the symptoms. This description includes the symptoms associated with\nexposure to the chemical including symptoms from the lowest to the most severe exposure.\n• Indication of whether the chemical is listed in the National Toxicology Program (NTP)\nReport on Carcinogens (latest edition) or has been found to be a potential carcinogen in the\nInternational Agency for Research on Cancer (IARC) Monographs (latest editions) or found\nto be a potential carcinogen by OSHA.\nSections 12-15 are not regulated by MIOSHA. Check with the Michigan Department of Environmental Quality (DEQ) for any employee training requirements for these sections. DEQ Environmental Assistance Center can be reached at (800) 662-9278 from 8 a.m. to 4:30 p.m., Monday through Friday or email: [email_address]\nSection 16, Other information, includes the date of preparation or last revision.\n*Note: Since other Agencies regulate this information, OSHA will not be enforcing Sections 12 through 15(29 CFR 1910.1200(g)(2)).\nSee Appendix D of 1910.1200 for a detailed description of SDS contents.\n","28":"This is discretionary information that may be provided by the manufacturer, importer or distributer. This information is not required to be on the label; however it will be found in the SDS.\n","17":"Source: GHS Guide on OSHA website: http://www.osha.gov/dsg/hazcom/ghs.html#3.1\nFigure 4.10\nThese are DOT labels and may appear on transport containers depending on the classification of the chemical. Employers are required to train employees on shipping container labels they may encounter on the job.\n","6":"Here is a list of the other standards affected.\nIn some cases, definitions may have changed in the standards listed above.\nChromium (VI) does not appear to have any changes.\nRefer to the handout CET-5532 or the GHS page on the MIOSHA website, for additional information on the other Standards affected:\nhttp://www.michigan.gov/documents/lara/lara_miosha_cet5532_402986_7.doc\n","45":"This slide highlights some of the additional resources available on the Federal OSHA website.\nOSHA Haz Com Web Page: www.osha.gov/dsg/hazcom/index.html\nOSHA Guide to GHS: www.osha.gov/dsg/hazcom/ghs.html\n","34":"Section 1\nThe required information consists of:\n• Product identifier used on the label and any other common names or synonyms by which the\nsubstance is known.\n• Name, address, phone number of the manufacturer, importer, or other responsible party, and\nemergency phone number.\n• Recommended use of the chemical (e.g., a brief description of what it actually does, such\nas flame retardant) and any restrictions on use (including recommendations given by the\nsupplier).\nSection 2\nThe required information consists of:\n• The hazard classification of the chemical (e.g., flammable liquid, category1).\n• Signal word.\n• Hazard statement(s).\n• Pictograms (the pictograms or hazard symbols may be presented as graphical reproductions\nof the symbols in black and white or be a description of the name of the symbol (e.g., skull\nand crossbones, flame).\n• Precautionary statement(s).\n• Description of any hazards not otherwise classified.\n• For a mixture that contains an ingredient(s) with unknown toxicity, a statement describing how\nmuch (percentage) of the mixture consists of ingredient(s) with unknown acute toxicity. Please\nnote that this is a total percentage of the mixture and not tied to the individual ingredient(s).\n","23":"Note that the corrosive pictogram used to designate corrosion to metal is the same pictogram used for skin corrosion/serious eye damage/eye irritation under the health hazard classification. \nNot all health hazards represented by this pictogram are corrosive to metal so it is important to look for additional information on the label and in the SDS.\nOxidizers are chemicals that can emit oxygen and increase the risk of fire.\n","1":"Last revised: 08/23/13 – Jenelle’s updates\nThis training session is designed to provide information to employees who work with hazardous chemicals and substances. Employers are required to provide training to employees by December 1, 2013.\n08/16/13: Minor revisions were made associated with the compliance dates listed in the speakers notes on a few slides.\n","40":"HMIS and NFPA secondary container labeling systems guidance might appear in this section of the SDS.\n","29":"Slide is animated to identify each required section/element of the new label.\n","18":"DOT does not view the GHS pictograms as a conflict and it is permissible to have the DOT and GHS pictogram for representing the same hazard. OSHA will not be enforcing the “shall not appear” requirement in Appendix C (C.2.3.3. states “where a pictogram required by DOT under Title 49 of the CFR (code of federal regulations) appears on a shipped container, the pictogram specified in C.4 for the same hazard, shall not appear.”\n","7":"This chart was provided by Federal OSHA with one addition which is noted in brackets.\nEffective on or by June 1, 2015:- All SDS must be completed and shipped/sent to users with the 1st order shipped on or after June 1, 2015.\nEmployers/users of chemicals review to ensure all SDS received on or after June 1, 2015 are in the new format. \nPer OSHA, employers are not required to pursue getting new SDSs for products received before June 1, 2015; unless they are aware of changes to the hazards in the product. For older products, material safety data sheets for the products must kept as long as chemical is onsite/use,d then archived as required.\n- Vertical chemical specific standards with label requirements must be changed to harmonize with 1910.1200 Haz Com.\nEffective on or by June 1, 2016 \n- Employer/user must have program updated including any additional training and any label changes completed.\n- Vertical chemical specific standards with signage requirements will be changing to harmonize with 1910.1200 Haz Com. The added text in brackets reflects this.\n","46":"This slide highlights some of the additional resources available on the MIOSHA website.\nState-wide Outreach seminars will be held. Additional details can be found on the MIOSHA CET training calendar\nhttp://www.michigan.gov/lara/0,4601,7-154-61256_11407_15317-40999--,00.html\nThe link to the CET DVD lending library is\nhttp://www.michigan.gov/lara/0,4601,7-154-61256_11407_30453-40855--,00.html\n","35":"Section 3\nThe required information consists of:\nSubstances\n• Chemical name.\n• Common name and synonyms.\n• Chemical Abstracts Service (CAS) number and other unique identifiers.\n• Impurities and stabilizing additives, which are themselves classified and which contribute to\nthe classification of the chemical.\nMixtures\n• Same information required for substances.\n• The chemical name and concentration (i.e., exact percentage) of all ingredients which are\nclassified as health hazards and are:\n° Present above their cut-off/concentration limits or\n° Present a health risk below the cut-off/concentration limits.\n• The concentration (exact percentages) of each ingredient must be specified except\nconcentration ranges may be used in the following situations:\n° A trade secret claim is made,\n° There is batch-to-batch variation, or\n° The SDS is used for a group of substantially similar mixtures.\nChemicals where a trade secret is claimed\n• A statement that the specific chemical identity and/or exact percentage (concentration) of\ncomposition has been withheld as a trade secret is required.\nSection 4\nThe required information consists of:\n• Necessary first-aid instructions by relevant routes of exposure (inhalation, skin and eye contact,\nand ingestion).\n• Description of the most important symptoms or effects, and any symptoms that are acute or\ndelayed.\n• Recommendations for immediate medical care and special treatment needed, when necessary.\n","24":"In the past, there have been several signal words that may have been used to indicate a hazard like caution, warning, danger.\nThe GHS permits the use of only 2 signal words: “Danger” and “Warning”. Only 1 of the signal words is permitted to appear on the label based on the classification of the chemical.\n","13":"Note: Pyrophoric Gases and Combustible Dust are not part of the GHS (international standard) but were specifically included by OSHA as physical hazard classifications under the 2012 Haz Com Standard. \n","2":"This training includes:\nAn overview of the changes to the MIOSHA Haz Com Standard;\nThe new labeling requirements;\nInformation on the new safety data sheets in the 16 section format; and,\nDetails of the facility specific haz com program. This portion of the training program is designed to provide guidance to employers on information they must include in order for the employee training program to be compliant with the MIOSHA Haz Com Standard. \n","41":"MIOSHA Act 154 requires that posters noting the location and receipt of new or revised SDSs be placed in the work area.\nAct 154 will be revised to be in compliance with GHS/Haz Com changes. This change may take some time to be effective. \nThis slide pictures the posters as they will appear with the anticipated change in wording from MSDS to SDS.\n","30":"Product Identifier = name or number unique to the chemical listed on the manufacturer label or in SDS.\nNote: waste container labeling requirements are covered under EPA/DEQ rules. Contact DEQ for additional information.\n","19":"There are 3 pictograms specific to health hazards: exclamation, health hazard (silhouette of a person with starburst on the chest) and skull and crossbones.\nThere is 1 pictogram that can represents both physical and/or health hazard of corrosive.\nThere are 4 pictograms specific to physical hazards: exploding bomb, flame, flame over circle (oxidizer) and gas cylinder.\nThere is 1 for environment: Environmental Hazards are not regulated by MIOSHA. Check with the Michigan Department of Environmental Quality (DEQ) for any employee training requirements for these sections. DEQ Environmental Assistance Center can be reached at (800) 662-9278 from 8 a.m. to 4:30 p.m., Monday through Friday or email: [email_address]\n","8":"Previously, chemical hazards were evaluated in a more subjective manner. \nChemicals must now go through a specific, prescriptive classification process to determine which hazards are present and which hazard and precautionary statements apply. This can be a lengthy process.\nEnvironmental Hazards are not regulated by MIOSHA. Check with the Michigan Department of Environmental Quality (DEQ) for any employee training requirements for these sections. DEQ Environmental Assistance Center can be reached at (800) 662-9278 from 8 a.m. to 4:30 p.m., Monday through Friday or email: [email_address]\n","36":"Section 5\nThe required information consists of:\n• Recommendations of suitable extinguishing equipment, and information about extinguishing\nequipment that is not appropriate for a particular situation.\n• Advice on specific hazards that develop from the chemical during the fire, such as any\nhazardous combustion products created when the chemical burns.\n• Recommendations on special protective equipment or precautions for firefighters.\nSection 6\nThe required information may consist of recommendations for:\n• Use of personal precautions (such as removal of ignition sources or providing sufficient\nventilation) and protective equipment to prevent the contamination of skin, eyes, and clothing.\n• Emergency procedures, including instructions for evacuations, consulting experts when\nneeded, and appropriate protective clothing.\n• Methods and materials used for containment (e.g., covering the drains and capping\nprocedures).\n• Cleanup procedures (e.g., appropriate techniques for neutralization, decontamination, cleaning\nor vacuuming; adsorbent materials; and/or equipment required for containment/clean up).\n","25":"Definition of Hazard Statement:\n"Hazard statement" means a statement assigned to a hazard class and category that describes the nature of the hazard(s) of a chemical, including, where appropriate, the degree of hazard.\nManufacturers, importers and distributers use the classification system outlined in GHS to identify which statements must appear in the SDS and on the label found in Appendix C.\n","14":"This chart shows the physical hazard classes and the hazard categories that correspond to each of the physical hazard classes. Hazard category 1 (or column furthest to the left) is the most hazardous. Hazard categories become less severe as you move to the right in the chart.\nManufacturers, importers and distributers must classify all hazards for their products.\n","3":"So, why the change?\nSince 1992, the United Nations have been working to create and enhance a globally harmonized system for the classification and labeling of chemicals that can be used by importers, distributers and manufacturers worldwide.\n2012 Haz Com revised standard is based on GHS revision 3.\nThe goal is to provide a common and coherent approach to classifying chemicals.\nThis will benefit employees as it will:\nReduce confusion and increase understanding of the hazards.\nFacilitate training\nHelp address literacy problems particularly due to use of pictograms\n","31":"HMIS = Hazardous Materials Information System (American Coatings Association)\nNFPA = National Fire Protection Association\nHMIS labeling system incorporates an “*” to inform employees of the presence of a chronic/target organ health effect. NFPA labeling system does not incorporate chronic effects and this must be included on NFPA labeled secondary containers if noted on the original manufacturer container. The health hazard pictogram (silhouette of a person with starburst on chest).\nGHS vs. HMIS / NFPA 704\nNFPA & HMIS systems number “4” indicates a severe hazard. \nUnder GHS Haz Com standard, when a manufacturer, importer, distributer classifies a chemical, a category “4” is the least severe and category “1” in the most severe. \nGHS hazard category numbers may be noted in SDS; NOT required to be present on the container label.\nACA made modifications to HMIS ratings in 2001. Reactivity was changed to Physical Hazard and defined ranges modified. System is still 0 = least hazard and 4=greatest hazard) More information available at www.paint.org/programs/hmis.html \n","20":"The following slides will provide more detail related to the pictograms.\nThese 2 pictograms are specific to acute toxicity (short-term exposure). The skull and crossbones is for any substance that is classified as having acute toxicity in health hazard category 1-3. The acute toxicity health class, category 4 (least hazardous) is represented by an exclamation mark.\nIf the substance is properly labeled, these 2 pictograms will never appear on the same label. It will be one or the other with skull and crossbones representing the more severe hazard.\nAdditional information for labeling and language associated with these pictograms is found in Appendix C of the Haz Com Standard.\n","9":"Now there are 10 established chemical health classifications; that are further defined and described in Appendix A of the Haz Com Standard.\nAppendix A is to be used by manufacturers, importers and distributers to determine if any of their products are classified as a health hazards. If the product is classified as a health hazard in one or more of the 10 health hazard classifications listed on this slide, Appendix A is used to determine the severity of the hazard (or hazard category) under the applicable hazard class. More information noted in the chart on the next slide.\nNote: Simple Asphyxiants are not part of the current GHS (international standard) but were specifically included by OSHA as a hazard classification under the 2012 Haz Com Standard. \n","37":"Section 7\nThe required information consists of:\n• Precautions for safe handling, including recommendations for handling incompatible\nchemicals, minimizing the release of the chemical into the environment, and providing advice\non general hygiene practices (e.g., eating, drinking, and smoking in work areas is prohibited).\n• Recommendations on the conditions for safe storage, including any incompatibilities. Provide\nadvice on specific storage requirements.\nSection 8\nThe required information consists of:\n• OSHA Permissible Exposure Limits (PELs), American Conference of Governmental Industrial\nHygienists (ACGIH) Threshold Limit Values (TLVs), and any other exposure limit used or\nrecommended by the chemical manufacturer, importer, or employer preparing the safety data\nsheet, where available.\n• Appropriate engineering controls (e.g., use local exhaust ventilation, or use only in an enclosed\nsystem).\n• Recommendations for personal protective measures to prevent illness or injury from exposure\nto chemicals, such as personal protective equipment (PPE) (e.g., appropriate types of eye, face,\nskin or respiratory protection needed based on hazards and potential exposure).\n• Any special requirements for PPE, protective clothing or respirators (e.g., type of glove material,\nsuch as PVC or nitrile rubber gloves; and breakthrough time of the glove material).\n","26":""Precautionary statement" means a phrase that describes recommended measures that should be taken to minimize or prevent adverse effects resulting from exposure to a hazardous chemical, or improper storage or handling. Precautionary statements can be found in Appendix C. \n","15":"This is an example of the new label style that is to appear on product labels beginning no later than June 1, 2015 (or Dec. 1, 2015 for distributers who still have product in inventory after the June 1, 2015 deadline). \nThe type of required information is noted in blue. The actual statements and information will vary depending on the specific health and physical classification of the product.\n","43":"Employers must provide facility specific instruction to employees as described on this slide and the next slide to be compliant with the Haz Com training requirements.\nEmployers must also maintain and periodically review the written Haz Com program for the facility which contains all of the information on this slide and the next slide.\n","32":"Manufacturers, importers and distributers may begin using the new 16-section format SDS (follows the ANSI standard) during the transition from the 1994 Haz Com standard and the final 2012 Haz Com standard but no later than June 1, 2015. They are required to provide a revised copy of the MSDS/SDS to the employer anytime changes are made.\nEmployers are required to maintain copies of all SDSs for the chemicals used and/or stored within the work area. They should have a system to ensure all SDSs are present/accounted and to periodically check for the most current SDS (usually based on revision date) when received from a manufacturer, importer or distributer. \nThe employer is to maintain a copy of the most current SDS and archive prior MSDSs/SDSs. SDSs are to accessible/available to employees.\nAs stated previously, if manufacturer is no longer in business, material safety data sheet for the product must kept as long as chemical is onsite/used then archived as required.\n","21":"Most employees should be familiar with the pictogram for corrosion on the left.\nThe pictogram to the right is called the “health hazard” pictogram and is represented by the silhouette of a person with a starburst across the chest. This is used indicate that the substance is a chronic and/or target organ hazard.\n","10":"This chart shows the new health hazard classes and the hazard categories that correspond to each of the health hazard classes. Hazard category 1 (or column furthest to the left) is the most hazardous. Hazard categories become less severe as you move to the right in the chart.\nManufacturers, importers and distributers must classify all hazards for their products.\n"}