Science Links Japan | Zairyo no Ekomateriaruka no tameno Hyoka. Sekkei Gijutsu no Kakuritsu ni kansuru Kenkyu (Dai2ki) Seika Hokokusho. Heisei 8-9 Nendo

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Zairyo no Ekomateriaruka no tameno Hyoka. Sekkei Gijutsu no Kakuritsu ni kansuru Kenkyu (Dai2ki) Seika Hokokusho. Heisei 8-9 Nendo

Comprehensive evaluation of environmental loading and using performance of material. 1. Research on database construction for environment burden evaluation. (Science and Technology Agency, Research and Development Bureau S)
Comprehensive evaluation of environmental loading and using performance of material. 2. Generalization of ecological balance evaluation technique. 1. Social infrastructure. (Science and Technology Agency Research and Development Bureau S)
Comprehensive evaluation of environmental loading and using performance of material. (2) Generalization of ecological balance evaluation technique. 2. Mass consumer goods. (Science and Technology Agency Research and Development Bureau S)
Comprehensive evaluation of environmental loading and using performance of material. 3. Research on technique development of MLCA. (Science and Technology Agency Research and Development Bureau S)
Overall evaluation of environmental load and performance in use of material 4. Case study for improvement in ecology balance of material 1. Improvement in ecology balance of damping metal material. (Science and Technology Agency Research and Development Bureau S).
Total evaluation of environmental loading and use performance of materials. 4 Case study for improvement of material ecology balance. 2 Ecology balance improvement of ceramics coating. (Science and Technology Agency, Research and Development Bureau S).
Design and development of material excellent in ecology balance 1. Metal material excellent in ecology balance 1. High-performance alloy with the least amount of alloying elements 1. Improvement in high-temperature long life characteristics with the smallest quantity of alloying elements. (Science and Technology Agency Research and Development Bureau S).
Design and development of material excellent in ecology balance 1. Metal material excellent in ecology balance 1. High-performance alloy with the least amount of alloying elements 2. Reducing the alloying element and improvement in high temperature property of heat resistant steel. (Science and Technology Agency Research and Development Bureau S).
Design and development of material excellent in ecology balance 1. Metal material excellent in ecology balance 1. High-performance alloy with the least amount of alloying elements 2. Wide performance alloy with simple composition 1.1. Development of wide characteristics by multi-phase microstructure. (Science and Technology Agency Research and Development Bureau S).
Design and development of material excellent in ecology balance 1. Metal material excellent in ecology balance 1. High-performance alloy with the least amount of alloying elements 2. Wide performance alloy with simple composition 1.1. Development of wide characteristics by multi-phase microstructure. (Science and Technology Agency Research and Development Bureau S).
Design and development of material excellent in ecology balance 1. Metal material excellent in ecology balance 1. High-performance alloy with the least amount of alloying elements 2. Refinement of microsrtructure by controlling the inclusions. (Science and Technology Agency Research and Development Bureau S).
Study on design technology of recyclable material aiming at the resource renewal 2. Design and development of material excellent in ecology balance 1. Technology of manufacturing the alloy using scrap 3.1.1. Manufacturing of high-purity reclaimed titanium alloy. (Science and Technology Agency Research and Development Bureau S).
Design and development of material excellent in ecology balance 1. Metal material excellent in ecology balance 3.1.2. Technology of manufacturing the alloy using scrap. Highly cleaned reclaimed titanium alloy. (Science and Technology Agency Research and Development Bureau S).
Design and development of material excellent in ecology balance 1. Metal material excellent in ecology balance 3.1.2. Technology of manufacturing the alloy using scrap. Highly cleaned reclaimed copper alloy. (Science and Technology Agency Research and Development Bureau S).
Design and development of materials with excellent ecological balance. 2. Composite materials with excellent ecological balance. 1. Organic - organic systems. 1. Recycling of organic composite materials by liquefaction and gasification. (Science and Technology Agency, Research and Development Bureau S).
Composite materials with excellent ecological balance. 1. Organic - organic systems. 2. Solvent soluble composite materials. (Science and Technology Agency, Research and Development Bureau S).
Design and development of materials with excellent ecological balance. 1. Composite materials with excellent ecological balance. 3. Research on non-toxic metal containing PVC. (Science and Technology Agency, Research and Development Bureau S).
Material design and development excellent in ecology balance. 2. Composite material excellent in ecology balance. 2. Inorganic and organic materials. 1. High-functional recyclable composite material for building ( Science and Technology Agency Research and Development Bureau S ).
Material design and development excellent in ecology balance. 2. Research on design and development of a composite material excellent in ecology balance. 2. High-functional recyclable composite material for civil engineering ( Science and Technology Agency Research and Development Bureau S ).
Design and development of materials with excellent ecological balance. 2. Composite materials with excellent ecological balance. 3. Inorganic - inorganic systems. 1. Ceramic based composite materials. (Science and Technology Agency, Research and Development Bureau S).
Research on establishment of evaluation and design techniques of ecomaterial materials. 3. New material design by natural fusion material technology. 1. Invention and applications of biodegradable copolyesters using microorganism. (Science and Technology Agency, Research and Development Bureau S).
Preparation and application of biomimic carbonate apatites.
Design and development of superior ecomaterials. 3. New material design by natural fusion material technology. 3. Long life and functional enhancement of mesomiscible carbon fixation materials. 1. Long-life woody materials by chemical modification. (Science and Technology Agency, Research and Development Bureau S).
Design and development of superior ecomaterials. 3. New material design by natural fusion material technology. 3. Long life and functional enhancement of mesomiscible carbon fixation materials. 2. High-functional woody materials by surface modification. (Science and Technology Agency, Research and Development Bureau S).