Development of products embedded disassembly process based on end-of-life strategies
46
Citation
7
Reference
10
Related Paper
Citation Trend
Abstract:
This paper surveys end-of-life strategies currently used in the electronics and appliances industries and identifies product characteristics that define feasible end-of-life strategies. The authors' survey indicates that two key characteristics serve as factors to categorize appropriate products' end-of-life path: product life and technology cycle. The categorization leads to a methodology that guides product developers to specify, end-of-life strategies, to seek environmentally friendly designs, and to identify opportunities for developing new recycling technologies. The goal of disassembly differs depending an each product category, however, efficient disassembly is a key to carry out the ideal end-of-life strategies for every product category. To enhance disassemblability, the authors propose the concept of the product embedded disassembly process. The fundamental idea is to embed a separation feature inside a product during manufacturing and activate it at disassembly.Keywords:
Product life-cycle management
To solve environmental issues, it is necessary to establish longer and more efficient product life cycles. However, it is difficult to design product life cycles because they are dependent on specific products. In an earlier study, we proposed a methodology to control product life by building in the possibility of upgrading that product, and we have also developed a life cycle simulation tool called a Life Cycle Simulation system. This system supports the design of product life cycles by integrating operations for product life cycle design. In this paper, we propose a methodology of product life cycle design based on product life control and a product life cycle design support system using the Life Cycle Simulation system. A case study illustrates that we can design longer and more efficient product life cycles based on the methodology we propose.
Product life-cycle management
Product design specification
Product engineering
Cite
Citations (2)
The length of the product life cycle can bring determines to value, and the interests of the product life cycle is not as long as possible. However, life cycle is too short to cause its lacking of competitivity in the market. Control product life cycle need scientific strategy. Product life cycle strategy includes many things, such as marketing strategy, development strategy, advertising strategies, etc. Product modeling design in product life cycle has its universal and special rules, the correct understanding and utilization of these rules, which can make the product modeling design strategy in the product life cycle to play an important role.
Product life-cycle management
Product engineering
Product strategy
Product design specification
Product proliferation
Cite
Citations (2)
The article expounds the management of product life cycle under the mode of Integrated Product Development (IPD),as part of the efforts to ensure the actual performance of product life cycle to meet its planned expectation and goals after it goes public.
Product life-cycle management
Mode (computer interface)
Cite
Citations (0)
Product Lifecycle Management makes it possible to command the whole lifespan of a product and the information connected with it. Efficient product lifecycle management enables companies to compete successfully in international and global market. The core of product life cycle management is the creation, preservation and storage of information relating to the company's product and activities in order to ensure the fast, fast and trouble free finding, refining, distribution and reutilization of data required for daily operations. This paper describes phases of product lifecycle and corresponding technologies of Product Lifecycle Management. The paper also describes with a further discussion of the business concept of product lifecycle management, marketing strategies, approaches and benefits of Product Lifecycle Management.
System lifecycle
Product life-cycle management
Product design specification
Innovation Management
Configuration Management (ITSM)
Service product management
Cite
Citations (1)
In this study the effects of maintenance on product life cycle management are examined. Product life cycle management systems are modeled with objects, actors and processes. Actors make decisions based on product conditions and other constraints, and activate the associated processes. Maintenance management systems are described in the same way and the behavior of a whole system is simulated stochastically. From the simulation result, effects of maintenance on lifecycle management are examined.
Product life-cycle management
System lifecycle
Maintenance engineering
Product design specification
Cite
Citations (1)
Life cycle is the main essence that characterizes innovation and includes the period from their emergence to their end. The end is not a complete depletion of the life-span of innovation, but an innovative aging resulting from new innovative solutions created with better techno-economic indicators and higher efficiency. They in turn lead to decision-making about terminating the life of the innovation. This report looks at the life cycle of innovation and lifecycle of an innovative product. The lifecycle viewed in this way should distinguish between the life cycle of innovation and the life cycle of a product. In one product we can have several innovative solutions. In addition, the product's lifecycle is a concept that expresses sales and profits changes from product creation to marketing. However, they have many common ground. For example, when innovative solutions in the product become aged, there is a decline in sales due to a partial loss of competitiveness.
Innovation Management
Product life-cycle management
Product innovation
Product design specification
System lifecycle
Cite
Citations (2)
Supply chain management (SCM) has been given much attention in academic research and industrial application. However, failures in SCM are still not uncommon in today's industries. In order to improve and optimize supply chain performance, different products should match different SCM strategies and SCM strategies should change over the life cycle of the product. This paper synthesizes past research about SCM based on product and product life cycle and discusses the product classification and supply chain types. We close the paper with recommendations for future research in supply chain management based on product and product life cycle.
Product life-cycle management
Cite
Citations (1)
Product life-cycle management
Product engineering
Product design specification
Cite
Citations (203)
While the authors give somewhat a detailed discussion of product life cycle management (PLCM) and the characteristics of the various phases of the cycle, as against Product Lifecycle Management (PLM), they disclose their disagreement with the conventional concept on the relationship between the two disciplines, pointing out that rather than irrelevant to and independent of each other, the two disciplines are closely related, having a number of respects in common. In addition they hold that the product life cycle is composed of five phases_ development, introduction, growth, maturity and decline, rather than four_ introduction, growth, maturity and decline as most of literature maintains.
Product life-cycle management
Innovation Management
Cite
Citations (3)
Product engineering
Product design specification
Product life-cycle management
Cite
Citations (0)