A weathering testing manual provides guidelines and procedures for conducting weathering tests on various materials and products to simulate the effects of exposure. The methods of weathering, which are discussed in Weathering. The Testing Manual is based on requirements of ASTM, ISO, BS, Ford, GM, IEC, IEEE, MIL PV, SAE, UL, and VDA standards. These tests are particularly important for industries such as automotive, construction, coatings, electrical insulating materials, fibers, firestop materials, gaskets, geotextiles, geomembranes, glazing, inkjet inks, laminated glass, marine products, metals, paper, plastics, photovoltaic modules, pipes, printed electronic devices, roofing, rubber, sealants, solar collectors, switches, textiles, thermal insulation, tubing, waterproofing, wire & cable, and wood.
The Weathering. The testing Manual contains detailed information on the methods used, their differences, parameter settings, and hardware that is commercially available for performing the tests. It also includes information on sample preparation, evaluation methods, frequency of data collection, data analysis and interpretation, and reporting.
Results of testing, which are available in open literature are compared with requirements of standards for different products.
This book will be published at the same time as the 7th Edition of the Handbook of Material Weathering and the Encyclopedia of Polymer Degradation. Each book has a different purpose. Handbook of Material Weathering is the monographic source of knowledge on various aspects of weathering, which has been reporting achievements in this field for the last 35 years. Weathering. The Testing Manual, as the above outline suggests, provides knowledge on testing of currently produced major commercial products. The purpose of Encyclopedia of Polymer Degradation is to outline the limitations and challenges of presently conducted weathering studies to formulate needs and directions for transition from present comparative evaluation to knowledge-based utilization of existing resources, the book aims to facilitate more effective prevention of waste and environmental pollution caused by material failures, partially caused by incomplete understanding of their properties and limitations.
The three books together are powerful tools for chemists, chemical engineers, legislators, environmental chemists, university teachers, and students, providing the most comprehensive knowledge on material weathering ever assembled.
