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International Journal of Production Research Volume 33, 1995 - Issue 11
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Original Articles

Simulation, animation, and analysis of design disassembly for maintainability analysis

R. VUJOSEVIC‡ Center for Computer-Aided Design, College of Engineering, University of Iowa, 324-IATL, Iowa City, IA, 52242, USAView further author information
,
R. RASKAR Center for Computer-Aided Design, College of Engineering, University of Iowa, 324-IATL, Iowa City, IA, 52242, USA
,
N. V. YETUKURI Center for Computer-Aided Design, College of Engineering, University of Iowa, 324-IATL, Iowa City, IA, 52242, USA
,
M. C. JOTHISHANKAR Center for Computer-Aided Design, College of Engineering, University of Iowa, 324-IATL, Iowa City, IA, 52242, USA
&
S.-H. JUANG Center for Computer-Aided Design, College of Engineering, University of Iowa, 324-IATL, Iowa City, IA, 52242, USA
Pages 2999-3022 | Received 01 Oct 1994, Published online: 25 Jun 2007

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K. Agyapong-Kodua, Csaba Haraszkó & István Németh. (2014) Resource selection ontologies in support of a recipe-based factory design methodology. International Journal of Production Research 52:21, pages 6235-6253.
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Daniele Regazzoni & Caterina Rizzi. (2014) Digital Human Models and Virtual Ergonomics to Improve Maintainability. Computer-Aided Design and Applications 11:1, pages 10-19.
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K. Agyapong-Kodua, Rob Darlington & Svetan Ratchev. (2013) Towards the derivation of an integrated design and manufacturing methodology. International Journal of Computer Integrated Manufacturing 26:6, pages 527-539.
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K. Agyapong-Kodua, Rosemary Brown, Rob Darlington & Svetan Ratchev. (2012) An integrated product–process design methodology for cost-effective product realisation. International Journal of Computer Integrated Manufacturing 25:9, pages 814-828.
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Fabio Giudice. (2010) Disassembly depth distribution for ease of service: a rule-based approach. Journal of Engineering Design 21:4, pages 375-411.
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Jianzhi Li, Hong-Chao Zhang, Miguel A. Gonzalez & Steven Yu. (2008) A multi-objective fuzzy graph approach for modular formulation considering end-of-life issues. International Journal of Production Research 46:14, pages 4011-4033.
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Raj Sodhi, Manuela Sonnenberg & Sanchoy Das. (2004) Evaluating the unfastening effort in design for disassembly and serviceability . Journal of Engineering Design 15:1, pages 69-90.
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SanchoyK. Das & Sandeep Naik. (2002) Process planning for product disassembly. International Journal of Production Research 40:6, pages 1335-1355.
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Articles from other publishers (41)

Xu Luo, Zhexue Ge, ShiGang Zhang & Yongmin Yang. (2021) A method for the maintainability evaluation at design stage using maintainability design attributes. Reliability Engineering & System Safety 210, pages 107535.
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Wenmin Zhu, Xiumin Fan & Qichang He. (2020) A hierarchical and process-oriented framework for disassemblability evaluation in product maintainability design. The International Journal of Advanced Manufacturing Technology 110:3-4, pages 777-795.
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Y. Z. Ayele, A. Barabadi & Y. Fuqing. (2018) Mixture Lognormal Cox Regression Repair Model for Prediction of the Repair Time. Mixture Lognormal Cox Regression Repair Model for Prediction of the Repair Time.
Ayodele Onawumi, Mfon Udo, Elijah Awoyemi & Imhade P. Okokpujie. (2018) Alternate Maintainability Evaluation Technique for Steering System of Used Automobiles. IOP Conference Series: Materials Science and Engineering 413, pages 012062.
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Pang Jiazhen, Li Na & Hou Xiaohui. (2017) The virtual maintenance process modeling method for performance assessment. The virtual maintenance process modeling method for performance assessment.
Xu Luo, Zhexue Ge, Fengjiao Guan & Yongmin Yang. (2017) A method for the maintainability assessment at design stage based on maintainability attributes. A method for the maintainability assessment at design stage based on maintainability attributes.
Rajesh Kr Singh, Pravin Kumar, Blesson Joseph & Himanshu Sharma. (2015) Evaluation of Maintainability Index of a Mechanical System using Graph Theoretic Approach. Procedia - Social and Behavioral Sciences 189, pages 303-313.
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Seamus M. McGovern & Surendra M. Gupta. (2015) Unified assembly- and disassembly-line model formulae. Journal of Manufacturing Technology Management 26:2, pages 195-212.
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Zhou Dong, Kang Le & Lv Chuan. (2013) A virtual reality‐based maintenance time measurement methodology for complex products. Assembly Automation 33:3, pages 221-230.
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Tsai C. Kuo. (2013) Waste electronics and electrical equipment disassembly and recycling using Petri net analysis: Considering the economic value and environmental impacts. Computers & Industrial Engineering 65:1, pages 54-64.
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Surendra GuptaSeamus McGovern & Surendra Gupta. 2013. Reverse Supply Chains. Reverse Supply Chains 83 96 .
Tsai C. Kuo & Miao-Ling Wang. (2010) Waste electronics and electrical equipment disassembly and recycling using Petri net analysis. Waste electronics and electrical equipment disassembly and recycling using Petri net analysis.
Qiang Su. (2009) A hierarchical approach on assembly sequence planning and optimal sequences analyzing. Robotics and Computer-Integrated Manufacturing 25:1, pages 224-234.
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A.B. Abdullah, M.H. Hasim, M.S. Yusoff, K.A. Wahab & Z.M. Ripin. (2007) Utilization of Design for Assembly Guideline to Enhance Product Maintainability. Journal of Applied Sciences 7:21, pages 3234-3241.
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Fabio Giudice & Giovanna Fargione. (2007) Disassembly planning of mechanical systems for service and recovery: a genetic algorithms based approach. Journal of Intelligent Manufacturing 18:3, pages 313-329.
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A.B. Abdullah .M.S. Yusoff .K.A. Wahab .Z.M. Ripin .. (2006) Determination of Maintainability Index Based on Assembly Criteria. Journal of Applied Sciences 6:12, pages 2586-2592.
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J.A.S. Williams. (2006) A review of electronics demanufacturing processes. Resources, Conservation and Recycling 47:3, pages 195-208.
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Kwang-Kyu Seo & Beum Jun Ahn. (2006) A learning algorithm based estimation method for maintenance cost of product concepts. Computers & Industrial Engineering 50:1-2, pages 66-75.
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Fabio Giudice, Guido La Rosa & Antonino Risitano. 2006. Product Design for the Environment. Product Design for the Environment 187 215 .
Fabio Giudice, Guido La Rosa & Antonino Risitano. 2006. Product Design for the Environment. Product Design for the Environment 375 406 .
Fabio Giudice, Guido La Rosa & Antonino Risitano. 2006. Product Design for the Environment. Product Design for the Environment 347 373 .
Kwang-Kyu Seo. 2005. Intelligent Knowledge-Based Systems. Intelligent Knowledge-Based Systems 1543 1563 .
A (Fred) Lambert & Surendra Gupta. 2004. Disassembly Modeling for Assembly, Maintenance, Reuse and Recycling. Disassembly Modeling for Assembly, Maintenance, Reuse and Recycling 167 226 .
J-H Park & K-K Seo. (2005) Incorporating life-cycle cost into early product development. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 218:9, pages 1059-1066.
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Z Tjiparuro & G Thompson. (2005) Review of maintainability design principles and their application to conceptual design. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering 218:2, pages 103-113.
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N. Murray & T. Fernando. (2004) An Immersive Assembly and Maintenance Simulation Environment. An Immersive Assembly and Maintenance Simulation Environment.
Lu Chen & Jianguo Cai. (2003) Using Vector Projection Method to evaluate maintainability of mechanical system in design review. Reliability Engineering & System Safety 81:2, pages 147-154.
Crossref
J Dong & G Arndt. (2005) A review of current research on disassembly sequence generation and computer aided design for disassembly. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 217:3, pages 299-312.
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P. Rios, L. Blyler, L. Tieman, J.A. Stuart, L. Duplaga, N. Meyer & E. Grant. (2003) A symbolic methodology to improve manual disassembly economics. A symbolic methodology to improve manual disassembly economics.
S. Das, V. Mani, R. Caudill & K. Limaye. (2002) Strategies and economics in the disassembly of personal computers-a case study. Strategies and economics in the disassembly of personal computers-a case study.
S. Das & D. Yedlarajiah. (2002) An integer programming model for prescribing material recovery strategies. An integer programming model for prescribing material recovery strategies.
J.A. Isaacs & S.M. Gupta. 2001. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology 7887 7892 .
P.G. Ranky, S. Das & R.J. Caudill. (2000) A Web-oriented, virtual product disassembly and identification method for DFE and electronic demanufacturers. A Web-oriented, virtual product disassembly and identification method for DFE and electronic demanufacturers.
Hsin-Hao (Tom) Huang, Michael H. Wang & Michael R. Johnson. (2000) Disassembly sequence generation using a neural network approach. Journal of Manufacturing Systems 19:2, pages 73-82.
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Pitipong Veerakamolmal & Surendra Gupta. 2000. Green Electronics/Green Bottom Line. Green Electronics/Green Bottom Line 69 82 .
M.F. Wani & O.P. Gandhi. (1999) Development of maintainability index for mechanical systems. Reliability Engineering & System Safety 65:3, pages 259-270.
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Askiner Gungor & Surendra M Gupta. (1999) Issues in environmentally conscious manufacturing and product recovery: a survey. Computers & Industrial Engineering 36:4, pages 811-853.
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PITIPONG VEERAKAMOLMAL & SURENDRA M. GUPTA. (1999) ANALYSIS OF DESIGN EFFICIENCY FOR THE DISASSEMBLY OF MODULAR ELECTRONIC PRODUCTS. Journal of Electronics Manufacturing 09:01, pages 79-95.
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P. Veerakamolmal & S.M. Gupta. (1999) A combinatorial cost-benefit analysis methodology for designing modular electronic products for the environment. A combinatorial cost-benefit analysis methodology for designing modular electronic products for the environment.
S. K. Das. 1999. AMST ’99. AMST ’99 807 814 .
Hao Jianping & Yu Yongli. (1998) Computer-aided maintainability in China. Computer-aided maintainability in China.

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