Welcome to our book review site go-pdf.online!
You may have to Search all our reviewed books and magazines, click the sign up button below to create a free account.
ASM Specialty Handbook
Materials covered include carbon, alloy and stainless steels; alloy cast irons; high-alloy cast steels; superalloys; titanium and titanium alloys; refractory metals and alloys; nickel-chromium and nickel-thoria alloys; structural intermetallics; structural ceramics, cermets, and cemented carbides; and carbon-composites.
Heat-resistant Materials II
Proceedings of the second international conference on heat resistant materials 11 -14 September 1995 sponsored by ASM and NACE. This second offering by the Speciality Materials Divisions Heat Resistant Materials Committee in Galtinberg, TN, focuses on material used for high temperature applications, with special emphasis on structural irons, nickel-base alloys, stainless steels and nonferrous alloys. Also covered are ceramics, intermetallics, and coatings, the proceedings address corrosion resistance, integrity of welds at high temperatures, and creep and stress corrosion cracking.
Heat-resistant Materials
The proceedings of the First International Conference on Heat-Resistant Materials, held at Lake Geneva, Wisconsin, September 1991, comprise 75 papers by researchers, designers, manufacturers, fabricators, and end-users, in sessions devoted to materials processing and fabrication, environment effects
The Further Development of Heat-resistant Materials for Aircraft Engines
The present report deals with the problems involved in the greater utilization and development of aircraft engine materials, and specifically; piston materials, cylinder heads, exhaust valves, and exhaust gas turbine blading. The blades of the exhaust gas turbine are likely to be the highest stressed components of modern power plants from a thermal-mechanical and chemical standpoint, even though the requirements on exhaust valves of engines with gasoline injection are in general no less stringent. For the fire plate in Diesel engines the specifications for mechanical strength and design are not so stringent, and the question of heat resistance, which under these circumstances is easier obtainable, predominates.
Heat-Resistant Polymers
Definitions of what is meant by a heat-resistant polymer vary considerably. We have taken the term to mean a polymer which can be used, at least for short time periods, at temperatures from 150°C. The greatest problem which arises in writing a monograph on such materials is the tremendous amount of data that is available. More than 2000 references have been published on one heat-resistant polymer system alone over a period of little more than two years. The result is that a very high degree of selectivity must be exercised with respect to the information reproduced. We have chosen to restrict our coverage to polymers that have received at least some degree of commercial exploitation and to ...
The Further Development of Heat-Resistant Materials for Aircraft Engines
The present report deals with the problems involved in the greater utilization and development of aircraft engine materials, and specifically; piston materials, cylinder heads, exhaust valves, and exhaust gas turbine blading. The blades of the exhaust gas turbine are likely to be the highest stressed components of modern power plants from a thermal-mechanical and chemical standpoint, even though the requirements on exhaust valves of engines with gasoline injection are in general no less stringent. For the fire plate in Diesel engines the specifications for mechanical strength and design are not so stringent, and the question of heat resistance, which under these circumstances is easier obtainable, predominates.
Heat Resistant Steel Castings
Steels, Castings, Heat-resistant materials, Nickel alloys, Cobalt alloys, Ferritic steels, Austenitic steels, Chemical composition, Mechanical properties of materials
