Material condition monitoring for stress-corrosion cracking Russell H. Jones Stress-Corrosion Cracking in Power Plant Pages: 6 - 6
Monitoring and modeling stress corrosion and corrosion fatigue damage in nuclear reactors P. L. AndresenF. P. FordD. F. Taylor Stress-Corrosion Cracking in Power Plant Pages: 7 - 11
Using acoustic emission to monitor stress-corrosion cracking R. H. JonesM. A. Friesel Stress-Corrosion Cracking in Power Plant Pages: 12 - 15
Monitoring and detecting environmentally induced cracking S. M. Bruemmer Stress-Corrosion Cracking in Power Plant Pages: 16 - 17
Design for performance—a predictive framework for life-cycle management David A. Woodford Feature Pages: 18 - 21
Analyzing thermal creep strain of a tokamak first-wall steel G. LewisC. -C. Chuang Feature Pages: 22 - 23
The structural applications of mechanical alloying F. H. Froes Materials Issues for Aerospace Propulsion Pages: 24 - 25
The semi-solid processing of alloys and composites C. LevaillantM. Suery Materials Issues for Aerospace Propulsion Pages: 26 - 26
Aerospace propulsion system materials in the next 25 years—composites take off Richard W. Bryant Materials Issues for Aerospace Propulsion Pages: 27 - 28
Metallurgical control of fatigue crack propagation in superalloys K. -M. ChangM. F. HenryM. G. Benz Materials Issues for Aerospace Propulsion Pages: 29 - 35
International Symposium on Extraction, Refining and Fabrication of Light Metals Call for Paper Pages: 39 - 39
International Symposium on Environmental Controls in Metallurgical Industries Call for Paper Pages: 39 - 39
Metals, composites and ceramics—the distinctions are rapidly disappearing Peter T. B. Shaffer Forum Pages: 48 - 48
Erratum to: Electroplasticity—The Effect of Electricity on the Mechanical Properties of Metals H. ConradA. F. Sprecher Jr.X. P. Lu Erratum Pages: 49 - 49