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Name:     Keiji MORINO
 

Occupation: Professor

             Civil Engineering Course, Department of Urban Environment,
　 　　　 Facuty of Engineering, Aichi Institute of Technology

Address:   1247,Yachigusa, Yakusa, Toyota, Aichi, 470-0392, JAPAN

            Phone +81-565-48-8121,  Fax.+81-565-48-3749,

            E-mail:morino@aitech.ac.jp
 

Degree:    Doctor of Science
 

Education: Graduate from Osaka City University

            Department of Earth Science, Faculty of Science

            Bachelor of Science, March 1962
 

Career:April 1962 - March 1969

             Research Assistant, Dept. of Civil Engineering, Osaka City University

         April 1969 - March 1973

             Lecture, Dept. of Civil Engineering, Aichi Institute of Technology

         April 1973 - March 1987

             Assistant Professor, Dept. of Civil Engineering,
             Aichi Institute of Technology

         April 1987 - up to the present

             Present occupation
 

Major:   Concrete Technology and Construction Material Science
 

Researching Themes:
          Utilization of Industrial By-products as Concrete Aggregate

         Microstructure of Cement Concrete
 

1. Utilization of Sphered Electric Arc Furnace Oxidizing Slag as Fine Aggregate for  Cement Concrete, Construction Material in M.M.I.J., 3(2) (1993), 27-34 (in Japanese).

2. Utilization of Electric Arc Furnace Oxidizing Slag as Concrete Aggregates, JCA Proc. of Cement and Concrete, 48 (1994), 310-315 (in Japanese).

3. Properties of Concrete Using Aggregate Made from Electric Arc Furnace Oxidizing Slag, Transactions of the Japan Concrete Institute, 16 (1) (1994), 319-324 (in Japanese).

4. Properties of Concrete Using Electric Arc Furnace Oxidizing Air-granulated and Air-cooled Slag Aggregates, Construction Material in M.M.I.J., 4(1) (1994), 2-9 (in Japanese).

5. Utilization of Various Types of Concrete Made with Electric Arc Furnace Oxidizing Slags Made in Different Cooling Processes as Concrete Aggregates, JCA Proc. of Cement and Concrete, 49 (1995), 114-119 (in Japanese).

6. Durability of Concrete Made with Electric Arc Furnace Oxidizing Slag Aggregates, Proc. of J.C.I., 18 (1) (1996), 393-398 (in Japanese).

7 Sea Water Resistance of Concrete Made with Electric Arc Furnace Oxidizing Slag Aggregate, Proc. of J.C.I., 19 (1) (1997), 355-360 (in Japanese).

8 Practical Use of Electric Arc Furnace Oxidizing Slag Aggregates for Special Concrete, Proc. of J.C.I., 20 (2) (1998), 37-42 (in Japanese).

9 Utilization of Electric Arc Furnace Oxidizing Slag as Concrete Aggregates, Construction Material in M.M.I.J., 8(1) (1998), 13-20 (in Japanese).

10 Durability of Concrete Using Electric Arc Furnace Oxidizing Slag Aggregates, International Conference of Infrastructure Regeneration and Rehabilitation, Improving the Quality of Life Through Better Construction, A Vision for the Next Millennium, Sheffield, UK (1999), 213-222
11 Utilization of electric arc furnace oxidizing slag as concrete ggregate, Proceedings of the　Global Symposium on Recycling, Waste Treatment and Clean Technology, held in San Sebastian, Spain, pp.521-530 (1999.9)
12 Properties of Concrete Using Electric Arc Furnace Oxidizing Slag Aggregates, JSCE, 2001 Second International Conference on Engineering Materials, California, USA, pp.269-280 (2001.8)
 

1. Hardening of Soft Clayey Soil with Cement, Granulated Blast Furnace Slag and Hydrated Lime, Review of the C.A.J. 34th General Meeting Technical Session, (1980), 258-260,

2. On the Practical Use of Siliceous Muddy Wastes to Autoclaved Products, Progress of Applied Geology, pp.179-195, (1974) (in Japanese)

3. A Basic Experiment on the Autoclave Solidification of Industrial Waste Included Heavy Metals, Transactions of Aichi Institute of Technology, No.11 (1976), 105-114. (in Japanese)
 

1. The Petrological Study of Alkali Reactive Aggregate, Transactions of the Japan Concrete Institute, Vol.6, pp. 207-214, (1984)

2. Microscopic Observation of Alkali Reactive Aggregates and Reaction Products, Review of the C.A.J. 38th General Meeting Technical Session, pp.104-107, (1984)

3. Alkali Aggregate Reactivity of Cherty Rock, Proceedings of the 8th International Conference on Alkali-Aggregate Reaction, pp.501-506, (1989)

4. Expansion Behavior and Microstructure of Mortar Bar due to Alkali Aggregate Reaction, International Symposium on Concrete Engineering New Technologies and Developments, Vol. 2, Nanjing China, pp.1185-1190, (1991)

5. ASR Expansion and Microstructure of Concrete with Cherty Aggregate, East Asia Alkali-Aggregate Reaction Seminar, Tottori, Japan, pp.113-124 (1997)
 

1. Microstructure of the Interfacial Zone between Various Types of Aggregate and Cement Paste in Concrete, Advanced Meterials-4,Proceeding of the Special Symposium on Advanced Materials, High Tech. Materials-1998-Spring,Nagoya,pp134-137 (1998)

2. Influence of Macroscopic and Microscopic Properties of Aggregates on Strength and Workability of High Strength Concrete, International Conference on Urban Engineering in Asian Cities in The 21st Century, Bangkok Thailand, pp.D63-D68 (1996)

3. Mechanical Properties of Steel Fiber-reinforceed, High-strength, Lightweight Concrete, Cement and Concrete Composites, Vol.19, Nos. 5/6. pp. 307-313 (1997)

4. Influence of Properties of Aggregates on Strength of High-Strength Concrete, International Symposium on New Development in Concrete Science and Technology, Nanjing China, Proceedings, pp.37-42, (1995)

5. Properties of Bond between Various Types of Rock Aggregate and Cement Paste, Transactions of the Japan Concrete Institute, Vol.2, pp.109-116 (1980)