eBook - ePub
Semiconductor Safety Handbook
Safety and Health in the Semiconductor Industry
Richard A. Bolmen
This is a test
Compartir libro
- 634 páginas
- English
- ePUB (apto para móviles)
- Disponible en iOS y Android
eBook - ePub
Semiconductor Safety Handbook
Safety and Health in the Semiconductor Industry
Richard A. Bolmen
Detalles del libro
Vista previa del libro
Índice
Citas
Información del libro
Interwoven within our semiconductor technology development had been the development of technologies aimed at identifying, evaluating and mitigating the environmental, health and safety (EH&S) risks and exposures associated with the manufacturing and packaging of integrated circuits. Driving and advancing these technologies have been international efforts by SEMI's Safety Division, the Semiconductor Safety Association (SSA), and the Semiconductor Industry Association (SIA). The purpose of the Semiconductor Safety Handbook is to provide a current, single source reference for many of the primary semiconductor EH&S technologies and disciplines. To this end, the contributors have assembled a comprehensive text written by some of the leading experts in EH&S in the semiconductor industry. This text had taken three years to complete and has involved tremendous effort and commitment by the authors.They have attempted to construct a reference manual that is comprehensive in its coverage of the technical aspects of each individual subject, while at the same time addressing practical applications of each topic. The scope of this text, from its inception, was intended to address significantly more than what would typically be classified under the definition of ""safety."" However, all of the chapters have a direct application to the protection and preservation of semiconductor employees, the surrounding communities and the environment.This book is a hands-on reference to environmental, health and safety issues critical to the semiconductor industry. It was also the author's intent to produce a text that provides a practical user's guide for semiconductor environmental, health and safety practitioners as well as those individuals responsible for operation, maintenance and production in wafer fabrication facilities.
Preguntas frecuentes
¿Cómo cancelo mi suscripción?
¿Cómo descargo los libros?
Por el momento, todos nuestros libros ePub adaptables a dispositivos móviles se pueden descargar a través de la aplicación. La mayor parte de nuestros PDF también se puede descargar y ya estamos trabajando para que el resto también sea descargable. Obtén más información aquí.
¿En qué se diferencian los planes de precios?
Ambos planes te permiten acceder por completo a la biblioteca y a todas las funciones de Perlego. Las únicas diferencias son el precio y el período de suscripción: con el plan anual ahorrarás en torno a un 30 % en comparación con 12 meses de un plan mensual.
¿Qué es Perlego?
Somos un servicio de suscripción de libros de texto en línea que te permite acceder a toda una biblioteca en línea por menos de lo que cuesta un libro al mes. Con más de un millón de libros sobre más de 1000 categorías, ¡tenemos todo lo que necesitas! Obtén más información aquí.
¿Perlego ofrece la función de texto a voz?
Busca el símbolo de lectura en voz alta en tu próximo libro para ver si puedes escucharlo. La herramienta de lectura en voz alta lee el texto en voz alta por ti, resaltando el texto a medida que se lee. Puedes pausarla, acelerarla y ralentizarla. Obtén más información aquí.
¿Es Semiconductor Safety Handbook un PDF/ePUB en línea?
Sí, puedes acceder a Semiconductor Safety Handbook de Richard A. Bolmen en formato PDF o ePUB, así como a otros libros populares de Technology & Engineering y Electrical Engineering & Telecommunications. Tenemos más de un millón de libros disponibles en nuestro catálogo para que explores.
Información
Categoría
Technology & Engineering1 Injury and Illness of Semiconductor Workers: Experience and Epidemiologic Studies
1.0 INTRODUCTION
The U.S. semiconductor industry workplace presents an interesting departure from the classic view of the American working environment. As the very essence of what has become known as “High Technology” or the “High Tech” industry, the semiconductor industry is characterized by rapid changes, based on intense competition to place increasingly smaller microcircuits on increasingly smaller substrate surfaces, with no loss in final product “yield.” Layered on top of competitive production change is the necessity to perform the crucial elements of manufacturing in isolated, ultra-clean wafer fabrication units. Workers themselves are further isolated from the product being produced by wearing special “gowns,” hair covers and facial masks. They are protected from harmful exposures to toxic chemicals and physical agents in ways that no large, manufacturing work force has ever been protected previously. Only the aerospace and nuclear weapons industries provide similar worker exposure controls. Yet, in all three of these industries, worker exposure controls were designed primarily to maintain product purity in a working environment free of harmful contamination. Practically speaking, concerns for product purity have resulted also in worker protection.
The wearing of personal protective clothing in semiconductor wafer fabrication rooms has been coupled with sophisticated systems of ventilation and chemical/gas air monitoring and detection. Alarms can be set at parts per million (ppm), or even parts per billion (ppb), to ensure that semiconductor employees are protected from harmful exposures resulting from releases of monitored chemical and gaseous substances. From this perspective, it must be understood that such controls on monitoring workplace air are absolutely essential in the wafer “fab.” Extremely toxic gases, such as arsine, phosphine and diborane have been in use in wafer fabrication since the beginning of the industry. The history of the industry is replete with wafer fab evacuations based on real or suspected leaks of gases or of solvents. Such evacuation episodes have become much less frequent in today’s wafer fabs largely because of the lessons learned in design of ventilation systems, toxic gas/chemical handling and increasingly sophisticated air monitoring systems with continuous air sampling.
From the standpoint of traditional workplace injury and illness statistics, the U.S. semiconductor industry has provided a model for worker safety and health protection. The frequency of work-related accidents and exposures resulting in injuries and illnesses has been among the lowest in the U.S. Figure 1 provides a graphic illustration of this experience compared with the private sector, all U.S. manufacturing, and durable goods manufacturing. However, the industry has not been free of work injuries and illnesses, even though the rate of occurrence of such conditions has been low. Nor has the industry been free of concern that more subtle health effects may be present.[1]
Figure 1 Comparative annual incidence rates for Occupational Health System, U.S. semiconductor industry, durable goods, and all manufacturing (1983–95).
In this chapter, we attempt to address both aspects of the U.S. semiconductor injury and illness experience. The chapter will skim over the past decade characterized by very low incidence rates of work injuries and illnesses among semiconductor workers to focus, instead, on stratification of work injuries and illnesses experienced by this work force during 1993 (provided by the U.S. Bureau of Labor Statistics and the Occupational Health System of the Semiconductor Industry Association).[2] Because of a major concern for the reproductive health of workers which surfaced in this industry during the middle 1980’s, a review of three, independent epidemiologic investigations is presented and the results discussed.
Finally, it must be emphasized that the U.S. semiconductor industry has represented a unique modeling opportunity for public health research. Although major companies within the industry have always been highly competitive, these same companies have formed several organizations designed to facilitate information and data exchange of a noncompetitive nature which have relevance to the safety and health of the semiconductor work force. These organizations include SEMATECH, the Semiconductor Safety Association (SSA), and the Environmental Safety and Health Committee of the Semiconductor Industry Association (SIA). The geographic “compactness” of the industry in the “Silicon Valley” of Northern California in the 1980’s made possible the development of the Occupational Health System (OHS), which will be discussed later. Without the ability to maintain a close, ongoing relationship with key members of the industry’s safety and health community (often involving ad hoc meetings on short notice) a work injury and illness surveillance system such the OHS might not have been possible.
2.0 REVIEW AND DISCUSSION OF SEMICONDUCTOR INDUSTRY WORK INJURIES AND ILLNESSES
During the past several decades the primary indicator of the safety and health experience of the American work force has been the incidence of work-related injuries and illnesses as published annually by the U.S. Bureau of Labor Statistics (BLS).[3] These incidence rates (calculated as the average number of new injury or illness cases per 100 full-time equivalent employees per year) have provided a standardized annualized statistic for comparing the overall work injury and illness experience of workers in various industry sectors.
Prior to 1972 (the initial BLS survey year), the only significant sources of data concerning semiconductor worker safety and health were individual states ‘workers’ compensation records. Because of the dearth of data concerning worker health prior to 1972, the growth of the industry during the 1970’s and the many manufacturing process changes which have become a signature of the industry, historical data concerning injuries and illnesses among semiconductor workers prior to 1972 can be considered fairly irrelevant.
Hence, the safety and health experience of the U.S. semiconductor industry work force has been closely tied to the annual incidence of work injuries and illnesses as calculated by the BLS rate for this industry. Figure 1 compares annual incidence rates for various industry sectors with the rates for the semiconductor industry during the period 1983–1995.
Beginning in 1982, the primary trade association of the U.S. semiconductor industry (Semiconductor Industry Association—SIA) has sponsored the development and maintenance of the Occupational Health System (OHS). This system provides detailed data analyses of pertinent work injury and illness case variables on an annual basis for the semiconductor industry. Approximately one-quarter to one-third of the U.S. semiconductor industry participates in the OHS program on a year-to-year basis. Prior to 1982, the only significant data concerning the safety and health experience of the nation’s semiconductor work force were those published annually in the BLS surveys, as discussed above.
Other indicators of the safety and health status of semiconductor workers have been reports of surveys (Health Hazard Evaluations) performed by the National Institute for Occupational Safety and Health (NIOSH), a sprinkling of papers published in the open scientific literature and proceedings of symposia associated with environmental and worker safety and health issues.[4][5] In addition, an annual meeting of semiconductor safety, health and environmental professionals sponsored by the Semiconductor Safety Association (SSA) has provided timely presentations concerning worker safety and health issues.
Finally, as stated above, several epidemiologic studies have been performed during the past decade which focus on reproductive health consequences of employment in the semiconductor industry.
These sources of data and information c...