Increased interest in the life cycle design of products has resulted in emphasis on the disassembly and recovery of materials at product end-of-life. For many products the cost of disassembly will outweigh the value of any materials recovered and such products will be processed by bulk recycling involving shredding and mechanical material separation. The efficiency of bulk recycling is influenced by a number of factors including the selection of materials during product design. This paper deals with the analysis of materials separation, which determines the least cost or maximum profit level of materials separation. This can be used for the evaluation of product designs for efficient bulk recycling and the combination of disassembly and bul...
The analysis of the disassembly of products for recycling and reuse is important because of the incr...
Designing product which is safe for the environment and facilitate the product and its parts to be e...
The automotive recycling infrastructure successfully recovers 75% of the material weight in end-of-l...
The recycling of manufactured products depends greatly on the efficiency with which material can be ...
Research on Design for Recycling has long focused on disassembly sequence planning and ease-of-disas...
Increasing environmental concerns about the disposal of mass produced products have resulted in effo...
Recycling technical consumer products after usage is a subject of rising importance. The lack of nat...
This paper describes an assessment methodology to support product design for "end-of-life" phase. It...
Virtually all of the material in today's automobiles can technically be recycled. The challenge...
In this thesis, a methodology for incorporating disassemblability into life-cycle design for Materia...
Incoming environmental legislation is expected to impose recycling activities on industrial and cons...
Research on The design of the product with the possibility of recycling in mind during the design st...
In spite of growing environmental concerns about the disposal of mass produced products, there are f...
For decades, the notion of closing material loops via recycling and remanufacturing has been advocat...
Increasing environmental concerns about the disposal of mass produced products have resulted in effo...
The analysis of the disassembly of products for recycling and reuse is important because of the incr...
Designing product which is safe for the environment and facilitate the product and its parts to be e...
The automotive recycling infrastructure successfully recovers 75% of the material weight in end-of-l...
The recycling of manufactured products depends greatly on the efficiency with which material can be ...
Research on Design for Recycling has long focused on disassembly sequence planning and ease-of-disas...
Increasing environmental concerns about the disposal of mass produced products have resulted in effo...
Recycling technical consumer products after usage is a subject of rising importance. The lack of nat...
This paper describes an assessment methodology to support product design for "end-of-life" phase. It...
Virtually all of the material in today's automobiles can technically be recycled. The challenge...
In this thesis, a methodology for incorporating disassemblability into life-cycle design for Materia...
Incoming environmental legislation is expected to impose recycling activities on industrial and cons...
Research on The design of the product with the possibility of recycling in mind during the design st...
In spite of growing environmental concerns about the disposal of mass produced products, there are f...
For decades, the notion of closing material loops via recycling and remanufacturing has been advocat...
Increasing environmental concerns about the disposal of mass produced products have resulted in effo...
The analysis of the disassembly of products for recycling and reuse is important because of the incr...
Designing product which is safe for the environment and facilitate the product and its parts to be e...
The automotive recycling infrastructure successfully recovers 75% of the material weight in end-of-l...