资料摘要
资料下载Nanoindentation has proven to be one of the most practical and effective small-volume mechanical testing methods through its successful application to a range of materials. The method developed by Oliver and Pharr has become the widely accepted method for nanoindentation data analysis and interpretation. 纳米压痕已被证明是最实用和有效的小体积机械测试方法之一,成功应用于各种材料。由Oliver和Pharr开发的方法已成为纳米压痕数据分析基本理论方法。 Anton Paar always struggles to help tribology researchers by providing them with the most reliable and innovative measurement equipment. In this seminar we introduce our cutting edge product development and multiple applications in collaborations with our customers. Anton Paar一直努力为其提供最可靠和最具有创新性的测量设备,在这次研讨会上,我们将介绍我们最前沿的产品高温超纳米压痕仪的开发和与客户合作的多种应用。
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安东帕康塔全自动比表面和孔径分布分析仪Autosorb-iQ
安东帕康塔比表面和孔径分析仪:Nova系列
安东帕Anton Paar粘度计SVM 1001
安东帕Anton Paar啤酒分析系统Alcolyzer Beer Analyzing System
安东帕Anton Paar全自动成品啤酒分析系统PBA 5001 Beer
纳米压痕测试仪:Hit 300
安东帕自动化多用途粉末X射线衍射仪
SAXS/WAXS/GISAXS/RheoSAXS 实验室光束线装置
紧凑型拉曼光谱仪Cora 5001
安东帕多参数分析系统:Modulyzer
安东帕Anton Paar在线二氧化碳传感器Carbo
安东帕Anton Paar低温冰粘密浊多功能测定仪SVM 3001
安东帕Anton Paar饮料色度传感器L-Col
安东帕L-Dens 2300 密度传感器
安东帕Anton Paar在线声速传感器L-Sonic
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