The Experts below are selected from a list of 327 Experts worldwide ranked by ideXlab platform
Jicai Feng - One of the best experts on this subject based on the ideXlab platform.
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friction stir welding processing of Polymers and Polymer matrix composites
Composites Part A-applied Science and Manufacturing, 2018Co-Authors: Yongxian Huang, Zongliang Lv, Xiangchen Meng, Jicai FengAbstract:Abstract Friction stir welding/processing (FSW/P) involving temperature, mechanics, metallurgy and interaction, is a complex solid state joining and processing technology. FSW has been widely applied to join aluminum alloy, titanium alloy and other materials which are difficult to weld by fusion welding. The last scientific study states that FSW has potential to join thermoplastic Polymers and Polymer matrix composites. In this review, current understanding and development about FSW of thermoplastic Polymers and Polymer matrix composites, multifunctional composites fabrication as well as dissimilar FSW of metal and Polymer are reviewed. Future scientific research and engineering development related to FSW/P of thermoplastic Polymers and Polymer matrix composites are identified.
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Friction stir welding/processing of Polymers and Polymer matrix composites
Composites Part A-applied Science and Manufacturing, 2018Co-Authors: Yongxian Huang, Zongliang Lv, Xiangchen Meng, Jicai FengAbstract:Abstract Friction stir welding/processing (FSW/P) involving temperature, mechanics, metallurgy and interaction, is a complex solid state joining and processing technology. FSW has been widely applied to join aluminum alloy, titanium alloy and other materials which are difficult to weld by fusion welding. The last scientific study states that FSW has potential to join thermoplastic Polymers and Polymer matrix composites. In this review, current understanding and development about FSW of thermoplastic Polymers and Polymer matrix composites, multifunctional composites fabrication as well as dissimilar FSW of metal and Polymer are reviewed. Future scientific research and engineering development related to FSW/P of thermoplastic Polymers and Polymer matrix composites are identified.
Huaping Xu - One of the best experts on this subject based on the ideXlab platform.
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Supramolecular Polymer fabricated by click Polymerization from supramonomer
Polymer Chemistry, 2014Co-Authors: Liulin Yang, Xinxin Tan, Xiaoguang Liu, Hui Yang, Zhiqiang Wang, Huaping XuAbstract:In contrast with macromonomer in traditional Polymer science, supramonomer refers to a monomer that is fabricated by noncovalent interactions, but is able to Polymerize using conventional methods of Polymerization. This communication describes the fabrication of a supramonomer based on supramolecular complexation between cucurbit[8]uril and the tripeptide Phe-Gly-Gly derivative. The supra-molecular Polymer is obtained by click Polymerization of the supra-monomer. It is expected that this line of research will provide a new method for fabricating supramolecular Polymers. Supramolecular Polymers are usually constructed by non-covalent Polymerization of covalent monomers. These methods include the design and synthesis of bifunctional monomers by covalent synthesis. Supramolecular Polymers are then fabri-cated by noncovalent Polymerization of bifunctional mono-mers; the reactions are typically driven by multiple hydrogen bonding, metal coordination bonding, aromatic–aromatic interactions, or host–guest interactions. 1 It has been shown recently that supramolecular Polymers can be fabricated by oxidative Polymerization from supramolecular building blocks. 2 We wondered if other Polymerization methods for preparing traditional covalent Polymers, such as condensation Polymeri-zations, could also be used to fabricate supramolecular poly-mers. In this study, our aim was to answer this question by using the concept of supramonomers. We used suitable non-covalent bonds for the fabrication of supramonomers that were able to Polymerize, and made supramolecular Polymers by Polymerization of the supramonomers. It is expected that this line of research will provide a new method for fabricating supramolecular Polymers, and so enrich the methodology of making reversible, recyclable, responsive, and even repairable materials.
Yongxian Huang - One of the best experts on this subject based on the ideXlab platform.
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friction stir welding processing of Polymers and Polymer matrix composites
Composites Part A-applied Science and Manufacturing, 2018Co-Authors: Yongxian Huang, Zongliang Lv, Xiangchen Meng, Jicai FengAbstract:Abstract Friction stir welding/processing (FSW/P) involving temperature, mechanics, metallurgy and interaction, is a complex solid state joining and processing technology. FSW has been widely applied to join aluminum alloy, titanium alloy and other materials which are difficult to weld by fusion welding. The last scientific study states that FSW has potential to join thermoplastic Polymers and Polymer matrix composites. In this review, current understanding and development about FSW of thermoplastic Polymers and Polymer matrix composites, multifunctional composites fabrication as well as dissimilar FSW of metal and Polymer are reviewed. Future scientific research and engineering development related to FSW/P of thermoplastic Polymers and Polymer matrix composites are identified.
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Friction stir welding/processing of Polymers and Polymer matrix composites
Composites Part A-applied Science and Manufacturing, 2018Co-Authors: Yongxian Huang, Zongliang Lv, Xiangchen Meng, Jicai FengAbstract:Abstract Friction stir welding/processing (FSW/P) involving temperature, mechanics, metallurgy and interaction, is a complex solid state joining and processing technology. FSW has been widely applied to join aluminum alloy, titanium alloy and other materials which are difficult to weld by fusion welding. The last scientific study states that FSW has potential to join thermoplastic Polymers and Polymer matrix composites. In this review, current understanding and development about FSW of thermoplastic Polymers and Polymer matrix composites, multifunctional composites fabrication as well as dissimilar FSW of metal and Polymer are reviewed. Future scientific research and engineering development related to FSW/P of thermoplastic Polymers and Polymer matrix composites are identified.
Sabu Thomas - One of the best experts on this subject based on the ideXlab platform.
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Advances in Polymer processing From macro to nano scales
New York, 2009Co-Authors: Sabu Thomas, Yang WeiminAbstract:Processing techniques are critical to the performance of Polymer products which are used in a wide range of industries. Advances in Polymer processing: From macro- to nano- scales reviews the latest advances in Polymer processing, techniques and materials.Part one reviews the fundamentals of Polymer processing with chapters on rheology, materials and Polymer extrusion. Part two then discusses advances in moulding technology with chapters on such topics as compression, rotational and blow moulding of Polymers. Chapters in Part three review alternative processing technologies such as calendaring and coating, foam processing and radiation processing of Polymers. Part four discusses micro and nano-technologies with coverage of themes such as processing of macro, micro and nanocomposites and processing of carbon nanotubes. The final section of the book addresses post-processing technologies with chapters on online monitoring and computer modelling as well as joining, machining, finishing and decorating of Polymers.With is distinguished editors and team of international contributors, Advances in Polymer processing: From macro- to nano- scales is an invaluable reference for engineers and academics concerned with Polymer processing.Reviews the latest advances in Polymer processing, techniques and materials analysing new challenges and opportunitiesDiscusses the fundamentals of Polymer processing considering the compounding and mixing of Polymers as well as extrusionAssesses alternative processing technologies including calendaring and coating and thermoforming of Polymers
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Advances in Polymer processing
Materials Today, 2009Co-Authors: Sabu ThomasAbstract:Processing techniques are critical to the performance of Polymer products, which are used in a wide range of industries. This book provides a comprehensive review of Polymer processing, focussing on recent developments in techniques and materials. Processing techniques are critical to the performance of Polymer products which are used in a wide range of industries. Advances in Polymer processing: From macro- to nano- scales reviews the latest advances in Polymer processing, techniques and materials. Part one reviews the fundamentals of Polymer processing with chapters on rheology, materials and Polymer extrusion. Part two then discusses advances in moulding technology with chapters on such topics as compression, rotational and blow moulding of Polymers. Chapters in Part three review alternative processing technologies such as calendaring and coating, foam processing and radiation processing of Polymers. Part four discusses micro and nano-technologies with covera. Part 1 Introduction: Recent advances in Polymer processing: the state of the art, new challenges and opportunities -- Non-Newtonian fluid mechanics and Polymer rheology -- Polymeric materials: elastomers, plastics, fibers, composites, nanocomposites and blends -- Compounding and mixing of Polymers -- Screw extrusion in Polymer processing -- Reactive extrusion of Polymers. Part 2 Moulding technology: Injection moulding of Polymers -- Rotational moulding of Polymers -- Blow moulding of Polymers. Part 3 Alternative processing technologies: Liquid resin and Polymer solution processing -- Calendering and coating of Polymers -- Thermoforming of Polymers -- Polymer processing using supercritical fluids -- Radiation processing of Polymers -- Novel processing additives for extrusion and injection moulding of Polymers. Part 4 Micro and nanotechnologies: Preparing rubber based nanocomposites through compounding and vulcanization -- Micromoulding of Polymers -- Reactive Polymer processing.
Zongliang Lv - One of the best experts on this subject based on the ideXlab platform.
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friction stir welding processing of Polymers and Polymer matrix composites
Composites Part A-applied Science and Manufacturing, 2018Co-Authors: Yongxian Huang, Zongliang Lv, Xiangchen Meng, Jicai FengAbstract:Abstract Friction stir welding/processing (FSW/P) involving temperature, mechanics, metallurgy and interaction, is a complex solid state joining and processing technology. FSW has been widely applied to join aluminum alloy, titanium alloy and other materials which are difficult to weld by fusion welding. The last scientific study states that FSW has potential to join thermoplastic Polymers and Polymer matrix composites. In this review, current understanding and development about FSW of thermoplastic Polymers and Polymer matrix composites, multifunctional composites fabrication as well as dissimilar FSW of metal and Polymer are reviewed. Future scientific research and engineering development related to FSW/P of thermoplastic Polymers and Polymer matrix composites are identified.
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Friction stir welding/processing of Polymers and Polymer matrix composites
Composites Part A-applied Science and Manufacturing, 2018Co-Authors: Yongxian Huang, Zongliang Lv, Xiangchen Meng, Jicai FengAbstract:Abstract Friction stir welding/processing (FSW/P) involving temperature, mechanics, metallurgy and interaction, is a complex solid state joining and processing technology. FSW has been widely applied to join aluminum alloy, titanium alloy and other materials which are difficult to weld by fusion welding. The last scientific study states that FSW has potential to join thermoplastic Polymers and Polymer matrix composites. In this review, current understanding and development about FSW of thermoplastic Polymers and Polymer matrix composites, multifunctional composites fabrication as well as dissimilar FSW of metal and Polymer are reviewed. Future scientific research and engineering development related to FSW/P of thermoplastic Polymers and Polymer matrix composites are identified.
