Table of Contents
May 1985
- NICE Newsletter 2525
- Materials for Ceramics Face Changed Perception 3030
- Annual Ceramic Mineral Resources Review 3232
- Technology Update 5555
- Water Absorption, Interior Fissures, and Microstructure of Shale Brick 5858
- Physicochemical Approach To Improving Adherence Between Steel and Bioactive Glass 6363
- Identification of Hot-Pressing Conditions Producing Optimum Strength and Microstructure in Alumina 6868
- Properties of Cement-Solidified Radioactive Waste Forms with High Levels of Loading 7171
- Carbon-Bonded Carbon Fiber Insulation for Radioisotope Space Power Systems 7575
- Hydration and Pozzolanic Activity of Nonferrous Slags 8484
- Comparison of Tuff and Fly Ash in Blended Cement 9191
- The Reversibility of Moisture Expansion 9696
- Analysis of Alumina by Combined TG/X-Ray Diffraction 100100
- Design and Construction of a HIP-Dilatometer 103103
- Strength of Tape Casting Tapes 108108
- Fabrication of Laser Spark Discharge Devices 109109
- Viscosity of Tape-Casting Slips 111111
Available PDF Downloads
Materials for Ceramics Face Changed Perception (pages 30-32)
Annual Ceramic Mineral Resources Review (pages 32-55)
Technology Update (pages 55-58)
Water Absorption, Interior Fissures, and Microstructure of Shale Brick (pages 58-63)
Physicochemical Approach To Improving Adherence Between Steel and Bioactive Glass (pages 63-68)
Identification of Hot-Pressing Conditions Producing Optimum Strength and Microstructure in Alumina (pages 68-71)
Properties of Cement-Solidified Radioactive Waste Forms with High Levels of Loading (pages 71-75)
Carbon-Bonded Carbon Fiber Insulation for Radioisotope Space Power Systems (pages 75-84)
Hydration and Pozzolanic Activity of Nonferrous Slags (pages 84-91)
Comparison of Tuff and Fly Ash in Blended Cement (pages 91-96)
The Reversibility of Moisture Expansion (pages 96-100)
Analysis of Alumina by Combined TG/X-Ray Diffraction (pages 100-103)
Design and Construction of a HIP-Dilatometer (pages 103-108)
Strength of Tape Casting Tapes (pages 108-109)
Fabrication of Laser Spark Discharge Devices (pages 109-111)