Mechanics and Strength of Biomaterials

Overview This presentation will introduce a range of biomaterials test applications where mechanical test instruments are assisting researchers and engineers in gaining a better understanding of native and artificial tissues. Tissue characterization often leverages test techniques designed to measure quasi-static and dynamic properties of human or animal model tissues. These measurements can be used to…

Thermogravimetric Analysis Under Extreme Conditions

  Overview Thermogravimetry (TGA) is a classical method determining temperature dependent material properties. Traditional TGA is performed at ambient pressure and with relatively inert reaction gases. To measure application-relevant material properties, however, TGA must be performed under real application conditions: at high pressures, with reactive and/or corrosive gases and in steam atmospheres. The TGA and…

Steady State & Flash Methods for Thermal Diffusivity and Thermal Conductivity Determination

  Overview In this presentation we will demonstrate accurate and high-throughput methods to measure the critical heat transfer properties of thermal diffusivity and thermal conductivity. Direct and indirect methods provide suitable measurements for a wide variety of materials – including polymers, ceramics, carbons, graphite, composites, glasses, metals, and alloys – and at temperatures from -150°C…

Advancements in the Characterization of Pharmaceuticals by DSC

  Overview Differential Scanning Calorimetry is a simple, yet powerful technique to gain a broad understanding of the characteristics of pharmaceutical materials, from the crystalline structure that exists to the compatibility of a specific formulation. Many of the properties that are explored using DSC are critical components of understanding the impact of processing conditions as…

Polymer Analysis Using the New Multi Sample Discovery X3 DSC

  Overview Polymeric materials, both thermoplastics and thermosets, have long been studied by differential scanning calorimetry (DSC). Cure properties, crystallization behavior, and glass transition temperatures are just a few of the material characteristics investigated by this versatile thermal technique. In many instances, the comparison of these material properties from samples that have a different production…

Thermal, Rheological and Mechanical Characterizations of Thermosets

  Overview Thermosetting materials, such as epoxy, have been widely applied in many areas including automotive, aerospace and electronics industries in the form of surface coating, structural adhesives, advanced composites and packaging materials. These kind of materials pose high mechanical strength, high temperature stability and good solvent resistance. Unlike thermoplastic polymers, the process of thermosets…

Connecting Polymer Processing and Product Performance through Rheology & DMA on the New DHR

  Overview The viscoelastic properties of polymers play a critical role in the different stages of polymer processing operations, whether it is melting and extrusion or the performance of the final product. On most polymer data sheets, these properties are presented in the form of a melt flow index. However, this simplistic approach is inherently…

Pharmaceutical Characterization with the New Multi Sample Discovery X3 DSC

  Overview Differential Scanning Calorimetry is a simple yet powerful technique for gaining a broad understanding of the characteristics of pharmaceutical materials. Many of the properties that are explored using DSC, including apparent melting, the glass transition, and purity, are critical towards understanding the impact of processing conditions as well as the stability and compatibility…

VIS 413

VIS 413 고온 점도계 고온 용융 점도 측정을 위한 뛰어난 진공 및 반응 대기 용량을 지닌 회전식 점도계를 소개합니다.     설명 사양 기술 응용 분야 회전식 고온 점도계 VIS 413의 최신 혁신 기술을 전달해 드리기 위해 TA Instruments에서 귀하를 초대합니다. VIS 413 점도계는 다양한 재료에서 고온 용융 점도 데이터를 측정해야 하는 과학자들을 위해 설계되었습니다.…