Dataset Browser

Explore the foundational definitions and delve into the crucial physical properties that define polymer materials. This introductory section examines the distinct characteristics of polymer solids, from their molecular arrangement to their mechanical behavior. Additionally, we analyze the unique flow dynamics and thermal properties of polymer melts, providing essential insights into their behavior in both solid and molten states for various applications.

Explore the Journal of Environmental Polymer Degradation for cutting-edge research on the breakdown of polymers in various environments. This journal investigates the processes, mechanisms, and environmental impacts of polymer degradation, offering valuable insights into developing sustainable and eco-friendly polymer solutions and understanding the life cycle of plastics in the environment.

Explore the critical role of plastics in medical devices with this comprehensive second edition, offering deep insights into the latest material advancements, design considerations, and regulatory challenges. This essential resource covers various medical-grade polymers, their biocompatibility, and innovative applications that are shaping the future of healthcare technology and patient care.

Explore the use of biobased materials in the formulation of polyurethane dispersions (PUDs) for more sustainable and environmentally friendly coatings and adhesives. These renewable resources offer a viable alternative to traditional petroleum-based ingredients, enhancing the sustainability profile and reducing the environmental impact of PUD applications in various industries, promoting innovation towards bio-based and eco-friendly polymer solutions.

Explore the latest advancements in biopolymers and their pivotal role as innovative drug delivery systems specifically designed for dermatology therapy. This update delves into how these biocompatible polymers are revolutionizing the effective and targeted treatment of various skin conditions, offering improved patient outcomes and enhancing therapeutic efficacy.

This topic delves into the fundamental principles of polymer thermodynamics, specifically focusing on liquid polymer mixtures. It investigates the energetic and entropic factors governing the behavior of polymer solutions, including their phase behavior and how different components interact. Gaining insights into these thermodynamic properties of polymers is crucial for designing advanced materials and predicting their performance.

This data delves into the critical mechanical properties of fiber composite construction methods, essential for understanding their performance and application. It explores the unique characteristics that define composite materials, offering insights into their strength, stiffness, and overall behavior under various loads. Understanding these mechanical properties is fundamental for engineers and designers working with fiber reinforced polymers and other advanced composite materials in high-performance applications.

This comprehensive resource explores the intricate world of polymer alloys and blends, focusing on the fundamental principles of their thermodynamics and rheology. Discover how these properties dictate material behavior, phase separation, and processability, providing essential insights for research, development, and application in polymer engineering and material science.

This comprehensive third edition delves into the critical permeability properties of various plastics and elastomers, offering in-depth analysis of how different materials interact with gases and liquids. It explores key factors influencing polymer barrier properties and material permeation, making it an essential resource for engineers and scientists studying diffusion in polymers and material selection for demanding applications.

This comprehensive resource delves into the fundamental photodegradation mechanisms responsible for the breakdown of polymers when exposed to light, elucidating the complex chemical transformations involved. Additionally, it details a range of experimental methods and analytical techniques employed to effectively study and quantify polymer degradation, offering critical insights into UV degradation of polymers and enhancing understanding for material science applications.

Explore the detailed preparation of conductive polypyrrole polystyrene sulfonate (PPy-PSS) through a robust chemical polymerization process. This method allows for the synthesis of conductive polymers by incorporating polystyrene sulfonate as a dopant, enhancing the electrical properties of the resulting PPy-PSS material. The focus is on achieving an effective and scalable route for producing these advanced conductive polypyrrole materials for various applications.

Explore the foundational principles of polymer science with this comprehensive resource by Paul C. Painter and Michael M. Coleman. This essential text delves into the fundamental concepts, theories, and applications of polymeric materials, making it ideal for students and researchers seeking a deep understanding of macromolecular chemistry and physics.

Explore the innovative world where renewable resources are harnessed to create advanced functional polymers and cutting-edge biomaterials. This includes a deep dive into the utilization of natural polysaccharides, proteins, and bio-based polyesters, offering sustainable solutions for a wide range of industrial and medical applications.

Explore the crucial role of polymeric materials in medication, focusing on how polymers are utilized for innovative drug delivery systems. This comprehensive first edition delves into the science of biomedical polymers, their applications in various pharmaceutical contexts, and the latest advancements in polymer therapeutics, offering essential insights for researchers and practitioners.

Elastomeric polymers with high rate sensitivity exhibit mechanical properties that are significantly influenced by the speed at which they are deformed. This strain rate dependence means their stiffness, strength, and energy absorption capabilities can vary dramatically under different loading conditions. Understanding the dynamic mechanical properties of these viscoelastic materials is crucial for engineering applications, particularly where rapid deformation or impact resistance is a factor, making high rate sensitivity a key characteristic for design and performance prediction.

Delve into the comprehensive world of conjugated polymers with this essential resource, covering foundational theory, innovative synthesis methods, critical material properties, and advanced characterization techniques. This handbook offers in-depth insights into conducting polymers, making it invaluable for researchers and students.

Explore the critical field of polymer fracture mechanics, delving into the principles governing how polymer materials deform, crack, and ultimately fail. This essential discipline is vital for understanding the durability, reliability, and long-term performance of plastics and composite materials, enabling engineers and scientists to design more robust and resilient products across various industries.

Explore the pivotal role of advanced polymer composites and various polymers in enhancing the resilience and sustainability of civil infrastructure. These innovative materials offer superior durability, strength, and longevity, addressing modern engineering challenges and contributing to the development of more robust and efficient infrastructure projects.

Explore the diverse methods involved in the processing of polymers, transforming raw polymeric materials into functional products. Learn about key techniques such as extrusion, injection molding, and thermoforming, crucial for manufacturing everything from consumer goods to advanced engineering components.

This JSON data provides SEO-friendly information for the Macromolecular Symposia Msymec Vol 96, an International Conference held in Beijing, China in June 1995. The event was a significant gathering for researchers and academics, focusing on the latest advancements and discussions in the field of liquid crystal polymers.