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Polymers

来源: 树人论文网 浏览次数:248次
所属分区:3区
ISSN:2073-4360
影响因子:3.164
是否开源:Yes
年文章量:725
录用比:较易
研究方向:工程技术
官网地址:http://road.issn.org/issn/2073-4360-polymers-#.V6rFTvmeozA
网友分享经验:较慢,6-12周

Polymers杂志中文介绍

聚合物(ISSN2073-4360)是一本国际性开放获取的聚合物科学杂志。它出版研究论文、通讯和评论文章。聚合物为发表论文提供了一个跨学科的论坛,这些论文推进了以下领域:(1)聚合方法,(2)理论、模拟和建模,(3)对新物理现象的理解,(4)表征技术的进展,以及(5)利用自组装和生物策略来产生复杂的多峰现象。内部结构。鼓励科学家尽可能详细地公布他们的实验和理论结果。因此,论文长度没有限制。必须提供完整的实验和计算细节,以便重现结果。范围聚合物合成:共聚物、嵌段聚合物、聚酯、弹性体、聚烯烃、聚酰胺、聚碳酸酯、橡胶、热塑性塑料、热固性材料、聚合方法等的合成。聚合物分析:聚合物、聚合物材料和聚合物添加剂的表征和分析、聚合机理、分子量测量、尺寸、构象、结构、聚合物的性质和行为、分离、光谱和散射技术、结构性质处理关系。聚合物物理:结晶、流变、膨胀、相分离、粘度和粘弹性、纠缠和交联、机械性能、介电性能、光学性能、热性能、降解和聚合动力学、受到变形、流动和其他外部场影响的聚合物、界面和密闭空间。聚合物理论与模拟:高分子系统的数值模拟,以了解潜在的物理或物理化学机制、聚合物结构与构象的建模、聚合动力学与聚合机理的预测算法、功能聚合物性能的建模与预测。ERS、聚合物系统的本构和多尺度建模方法、聚合物动力学理论、人工智能、机器学习和聚合物的数据驱动建模。聚合物加工和性能:热成型、压缩和传递模塑、旋转模塑、挤压、注射成型、吹塑、塑料发泡成型。聚合物应用:聚合物材料的各种应用(从传感器到执行器,从生物医学工程到空间工程,从宏观尺度到纳米尺度),概念验证,结构/系统设计,性能验证和特性描述。请参阅此处了解所涵盖主题的完整列表。

Polymers杂志英文介绍

Polymers (ISSN 2073-4360) is an international, open access journal of polymer science. It publishes research papers, communications and review articles. Polymers provides an interdisciplinary forum for publishing papers which advance the fields of (i) polymerization methods, (ii) theory, simulation, and modeling, (iii) understanding of new physical phenomena, (iv) advances in characterization techniques, and (v) harnessing of self-assembly and biological strategies for producing complex multifunctional structures. Scientists are encouraged to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental and computational details must be provided so that the results can be reproduced.ScopePolymer synthesis: synthesis of copolymers, block-polymers, polyesters, elastomer, polyolefins, polyamides, polycarbonates, rubber, thermoplastics, thermosets, methods for polymerization, etc.Polymer analysis: characterization and analysis of polymers, polymeric materials and polymer additives, polymerization mechanism, measurement of molecular weight, size, conformation, structure, properties and behavior of polymers, separation, spectroscopy, and scattering techniques, structure-property-processing relationships.Polymer physics: crystallization, rheology, swelling, phase separation, viscosity and viscoelasticity, entanglements and crosslinking, mechanical properties, dielectric properties, optical properties, thermal properties, the kinetics of degradation and polymerization, polymers subjected to deformation, flow, and other external fields, polymers at interfaces and in confined spaces.Polymer theory and simulation: numerical simulation for macromolecular systems towards the understanding of underlying physical or physico-chemical mechanisms, modeling of polymer structure and conformation, predictive algorithms of polymerization kinetics and polymerization mechanism, modeling and prediction of the performance of functional polymers, constitutive and multiscale modeling approaches for polymeric systems, kinetic theory of polymers, artificial intelligence, machine learning and data-driven modeling of polymers.Polymer processing and performance: thermoforming, compression and transfer molding, rotational molding, extrusion, injection molding, blow molding, plastic foam molding.Polymer applications: all kinds of applications (from sensors to actuators, from biomedical engineering to space engineering, and from macro scale down to nano scale) with polymeric materials, proof of concept, structural/system design, performance verification and characterizationSee here for a full list of topics covered.

Polymers影响因子

高分子科学领域相关期刊
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