|
| Plenary 2 |
| 9:00-9:50 |
A Trial on Comprehensive Value Judgement
of Industrial Product
K. Yamaji
Nihon Tetra Pak K.K., JAPAN |
| Plenary 3 |
| 10:00-11:10 |
Life Cycle Design for Inverse
Manufacturing
F. Kimura
Univ. of Tokyo, JAPAN |
|
MITI's Activities for the Construction of
an Environmentally Conscious Manufacturing System
M. Fujita
Ministry of Trade and Industry, JAPAN |
| A2-1 |
12:30-13:50 |
|
Reversible Reconfiguration: A Key for
Reuse
T. Tomiyama
Univ. of Tokyo, JAPAN |
|
A Definition of Remanufacturing within a
Taxonomy of Product
H. Parkinson1 and G. Thompson2
1Manchester Metropolitan Univ., 2UMIST, UK |
|
A Proposal of Upgradable Design
Y. Shimomura1, Y. Umeda2 and T. Tomiyama2
1Mita Industrial, 2Univ. of Tokyo, JAPAN |
|
Modularization - Support of Life Cycle
Management
A. Riitahuhta and M.M. Andreasen
Technical Univ. of Denmark, DENMARK |
| A2-2 |
14:00-15:20 |
|
WOIS - Way of Contradiction Oriented
Innovation Strategy
H. Linde and U. Neumann
Fachhochschule Coburg, GERMANY |
|
Integrating Environmental Decisions into
the Product Development Process: Part 1 The Early Stages
T.A. Bhamra1, S. Evans1, T. C. McAloone2, S. Poole3,
M. Simon3 and A. Sweatman3
1Cranfield Univ., UK, 2Technical Univ. of Denmark, DENMARK, 3Manchester
Metropolitan Univ., UK |
|
Integrating Environmental Decisions into
the Product Development Process: Part 2 The Later Stages
S. Poole1, M. Simon1, A. Sweatman1, T. A. Bhamra2,
S. Evans2 and T. C. McAloone3
1Manchester Metropolitan Univ., 2Cranfield Univ., UK, 3Technical
Univ. of Denmark, DENMARK |
|
Key Design Elements for the Inverse
Manufacturing
Y. Umeda
Univ. of Tokyo, JAPAN |
| A2-3 |
15:30-16:50 |
|
Integration of Environmental Aspects in
Product Development
S. Ritzen and M. Norell
Royal Institute of Technology, SWEDEN |
|
The Ecodesign Strategy on Product Research
and Development from the Life-cycle Design
J. Tu and F. Hsu
Da-Yeh Univ., TAIWAN |
|
Lifecycle Oriented
Designing
M.E. Toxopeus, R.L. Cornelissen and G.J.J. Jong
Univ. of Twente, THE NETHERLANDS |
|
Theory and Application of DFE Tools for
Environmental Product Design
D. Cox and P. O’ Hara
Environmental and Occupational Risk Management, USA |
| A2-4 |
17:00-18:20 |
Keynote |
Incorporating End-of-Life
Strategy in Product Definition (Keynote)
K. Ishii
Stanford Univ., USA |
|
Danish Experience with the EDIP Tool for
Environmental Design of Industrial Products
H. Wenzel
Technical Univ. of Denmark, DENMARK |
|
Design for Environment - A Computer-Based
Cooperative Method to Consider the Entire Product Life Cycle
R. Anderl, H. Weissmantel, B. Daum and B. Wolf
Darmstadt Univ. of Technology, GERMANY |
Top
| A2-5 |
12:30-13:50 |
|
Functional Module Design in Fuji Xerox
K. Nakayama
Fuji Xerox Co., Ltd., JAPAN |
|
Design for Low Electric Power during
Standby Mode of Fax-Copier Machine Ricoh MV310E
Y. Matsushita
Ricoh Co., Ltd., JAPAN |
|
Environmentally Conscious Office Equipment
A. Inoue and H. Sato
Fuji Xerox Co., Ltd., JAPAN |
|
On Optimal Design of Automotive Hybrid
Powertrain Systems
P. Papalambros
Univ. of Michigan, Ann Arbor, USA |
| A2-6 |
14:00-15:40 |
|
A Concept Model of Environmentally
Friendly IT Products
T. Tamura, J. Fujimoto, M. Tani, A. Maemura, T. Terasawa and K. Kawasaki
NEC Corp., JAPAN |
|
Evaluation of the Cold Extrusion
Production Process
D. Schmoeckel, G.F. Schlotheim and A. Wansel
Darmstadt Univ. of Technology, GERMANY |
|
Eco Design of Pumps in Manufacturing and
Their Use
H. Okazaki
Ebara Corp., JAPAN |
|
Product Life Cycle Design of Screen System
for Wasterpaper Processing
J. Hashimoto1 and Y. Tomisawa2
1Ishikawajima Industrial Machinery Co., Ltd., 2Ishikawajima-Harima
Heavy Industries Co., Ltd., JAPAN |
|
Evaluation of Steel Products as a Base for
Environmentally Sound Product Design
D. Schmoeckel, A. Wansel and G. F. Schlotheim
Darmstadt Univ. of Technology, GERMANY |
| A2-7 |
15:50-17:10 |
|
A View for Zero-Emission Designing Based
on Bio-Regionalism
M. Akaike
Universal Design Intelligence, JAPAN |
Keynote |
Strategic Design for Sustainability.
Towards a New Mix of Products and Services
E. Manzini
Polytechnic of Milan, ITALY |
|
Seven Approaches to Eco-Package Design
S. Kaneko
Japan Package Design Assoc., JAPAN |
| A2-8 |
17:20-18:00 |
|
Eco-Designs and Eco-Marketing, Necessities
for the 21st Century
N. Sato
Ritsumeikan Univ., JAPAN |
|
Product Design Adaptable to Changes of
Life Cycles
F. Masuda
Open House, JAPAN |
|
Re-Configurable Manufacturing Structures -
An Appearing Paradigm of Future Manufacturing
H. Kuhnle and D. Markfort
Fraunhofer IFF, GERMANY |
| B2-1 |
12:30-13:50 |
|
Reconfigurable Manufacturing Paradigm and
Environment Consciousness
W. Chengen1 and N. Brehmer2
1Fraunhofer IFF, GERMANY, 2Shenyang Institute of Automation, CHINA |
|
Loop-Closing Industrial Complex with
Emission-Minimized Metabolism in Pilot Experimental Study Sites
T. Morioka
Osaka Univ., JAPAN |
|
Inverse Manufacturing & Material
Cycles: An Inter-Industry Approach
S. Nakamura
Waseda Univ., JAPAN |
| B2-2 |
14:00-15:20 |
|
Customer Benefits in the Context of Life
Cycle Design
C. Luttropp and J. Lagerstedt
Royal Institute of Technology, SWEDEN |
|
Agreement Formation for Inverse
Manufacturing
T.M. Nakanishi
Univ. of Tokyo, JAPAN |
|
Packaging, Function, Re-function and
Malfunction. From Consumerism Society to the Homeless' Material Culture
M.C.L. Santos1 and A.F. Pereira2
1Univ. of Sao Paulo, 2Univ. de Technologie de Compiegne, BRAZIL |
|
Interactions between Cultural
Deterioration and the Conquest of the Market: an Approach for Ecodesign
M.S. Faria, A.F. Pereira and P.H. Dejean
Universite de Technologie de Compiegne, FRANCE / CNPq and CAPES, BRASIL |
| B2-3 |
15:30-16:50 |
Keynote |
The ISO 14020 Series and Its Implications
on the Trades
K. Lee
Ajou Univ., KOREA |
|
Bottom-Up' Approach to the Implementation
of Environmental Life Cycle Assessment
P. Mitchell and R. Hyde
Univ. of Queensland, AUSTRALIA |
|
An Innovating Approach to EMS in Practice
- The Copenhagen Metro Case Study
P. Jean and M. Ojan
Ecobilan Group, FRANCE |
| A2-9 |
17:00-18:40 |
|
Coefficient Based Assessment Methods to
Support Life Cycle Design
D. Spath, M. Scharer and L. Trender
Univ. of Karlsruhe, GERMANY |
|
Typology of Eco-Effective Products; a
Connection-Link between Product Design and Environmental Management
R. Winkler and R. Zust
Swiss Federal Institute of Technology Zurich, SWITZERLAND |
|
Management of Restricted Substances in
Electronic Components
D. Cox and P. O’ Hara
Environmental and Occupational Risk Management, USA |
|
Implementation of Environmental Management
Systems in Swedish Industry
J. Backmar, S. Ritzen and M. Norell
Royal Institute of Technology, SWEDEN |
|
United Technologies Corporation's Approach
to Life Cycle Management
J. B. Legarth and T. Swarr
United Technologies Research Center GmbH, GERMANY |
Top
| C2-1 |
12:30-13:30 |
|
The Hydrothermally Solidified Soil
"Earth Ceramics" - A Proposal of a Concept for Development of Material
H. Shin, H. Maenami, O. Watanabe and H. Ishida
INAX Corp., JAPAN |
|
Recoverable Composite Material Made of
Termoplastic Waste Combine with Organic Fibres
J. Leif
Univ. of Kalmar, SWEDEN |
|
Thermal Shock Resistance of Woodceramics
to Repeated Quenching
S. Araki1, K. Hata1, J. Tsuji1, M. Otsuka1, T. Okabe2
and K. Saito2
1Shibaura Institute of Technology, 2Industrial Research Institute of
Aomori Prefecture, JAPAN |
| C2-2 |
13:40-14:40 |
|
Eco-Design of Steel Products
K. Marukawa and S. Hara
Sumitomo Metal Industries, Ltd., JAPAN |
|
Development of Fuel Tank with Lead Free
Aluminum Plated Steel
S. Choji and T. Sakauchi
Nissan Motor Co., Ltd. JAPAN |
|
Chromium Free Surface Treatment for
Magnesium Alloy
K. Higuchi
IBM Japan Ltd., JAPAN |
| C2-3 |
14:50-16:50 |
|
Automation of Disassembly Processes and
Its Information Systems
B. David
Ecole Centrale de Lyon, FRANCE |
|
Development of Products Embedded
Disassembly Process Based on End-of-Life Strategies
K. Masui1, K. Ishii2, C. Rose2 and K. Mizuhara1
1AIST, MITI, JAPAN, 2Stanford Univ., USA |
|
Product and Process Planning for Recycling
H. Perlewitz, K. Mueller and G. Seliger
Technical Univ. of Berlin, GERMANY |
|
Advanced Transportation in the Dismantling
/ Recycling Factory -Development of Flexible Transfer System -
Y. Inada1, H. Yamamoto1, S. Shibata1, T. Fukuda2 and N. Kubota3
1Toyo Engineering Corp., 2Nagoya Univ., 3Osaka Inst. of Technology, JAPAN |
|
Disassemblability Assessment for IM
T. Suga
Univ. of Tokyo, JAPAN |
|
Disassembly Simulation for an Effective
Recycling of Electrical Scrap
J. Hesselbach and K. Westernhagen
Technical Univ. of Braunschweig, GERMANY |
| C2-4 |
17:00-18:40 |
|
Inverse Manufacturing Systems Optimization
through Disassembly Analysis
A. Spicer1, M.R. Johnson1 and M.H. Wang2
1Yellow Creek Consulting, 2Univ. of Windsor, CANADA |
|
Active Disassembly Using SHAPE MEMORY
POLYMERS
J.D. Chiodo, E.H. Billett and D.J. Harrison
Brunel Univ., UK |
|
Reversible Interconnection Using Hydrogen
Storage Alloy
F. Kitaoka, N. Hosoda and T. Suga
Univ. of Tokyo, JAPAN |
|
QuickSnap Reusing & Recycling System
A. Fukano
Fuji Photo Film Co., Ltd., JAPAN |
|
Active Disassembly of Bonded Wafers
D. Kasa and T. Suga
Univ. of Tokyo, JAPAN |
Top
| C2-5 |
12:30-13:50 |
Keynote |
Research Trends in Lead-Free Soldering in
the U.S: NCMS Lead-Free Solder Project (Keynote)
C. Handwerker
NIST, USA |
|
Development of Pb-Free Solder Alloys of
the Ge Doped Sn-Ag-Bi System
K. Habu1, N. Takeda1, H. Watanabe1, H. Ooki1,
J. Abe2, Y. Taniguchi2 and K. Takayama2
1Sony Research Development Center, 2Sony Technology Center, JAPAN |
|
Evaluation of Pb-Free Solders for
Adaptability to Various Soldering Processes
Y. Tsunematsu, M. Taniguchi and M. Hirano
Omron Corp., JAPAN |
| C2-6 |
14:00-15:20 |
|
Microstructural Change and Hardness of
Lead Free Solder Alloys
Y. Miyazawa and T. Ariga
Tokai Univ., JAPAN |
|
Interface Phenomena Occurred in Lead-Free
Soldering
K. Suganuma
Osaka Univ., JAPAN |
|
Thermal Fatigue Damage of Quad Flat Pack
Leads and Sn-3.5 Ag-X (X=Bi, Cu) Solder Joints
K. Warashina, Y. Kariya, Y. Hirata and M. Otsuka
Shibaura Institute of Technology, JAPAN |
|
Lead Free Electro Deposition
S. Yamamoto
Nissan Motor Co., Ltd., JAPAN |
| C2-7 |
15:30-16:30 |
|
Pavement Construction Work of a Road
Surface by Soil Cement Concrete that Used Construction Remainder Soil
M. Ohno and K. Fukai
Nagoya Municipal Industrial Research Institute, JAPAN |
|
Stabilization of Urban Waste Incineration
Ash and Coal Fly-Ash
M. Ohno and K. Fukai
Nagoya Municipal Industrial Research Institute, JAPAN |
|
Estimation of the Avoidable Lead in MSW by
Inverse Manufacturing System
T. Sekito, N. Tanaka and T. Matsuto
Hokkaido Univ., JAPAN |
| C2-8 |
16:40-17:40 |
|
Performance Improvement of Municipal Solid
Waste Drying in RDF Production Process
Y. Tatemoto1, K. Yasuda1, Y. Bando1, M. Nakamura1 and M. Azegami2
1Nagoya Univ., 2Prand Research Inst., JAPAN |
|
Effect of Liquid Mixing Behavior on
Decomposition of Organic Materials in Solution by Ultrasound
K. Yasuda, M. Tachi, R. Tanigawara, Y. Bando and M. Nakamura
Nagoya Univ., JAPAN |
|
Metallic-Resin Compounds Fuel Processing
Process
H. Hoshina and T. Hayanose
Mitsubishi Materials Corp., JAPAN |
Top
|