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硼化锆

24篇引用文献 COA COA
    级别和纯度:
  • ≥99% metals basis
  • excluding Hf
有货

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货号 (SKU) 包装规格 是否现货 价格 数量
Z102841-5g
 5g 现货 Stock Image
Z102841-25g
 25g 现货 Stock Image
Z102841-100g
 100g 现货 Stock Image
Z102841-500g
 500g 现货 Stock Image
大包装询价 收藏夹 比较  SDS下载  DATASHEET  质量标准
main product photo

基本描述

英文别名 MFCD00064648 | CID 9812765 | Zirconium Diboride 99% | ZrB2 | Zirconium diboride ZrB2 GRADE A (H?gan?s) | boron;zirconium | Zirconium diboride ZrB2 GRADE B (H?gan?s) | Zirconium Diboride 15micron | B2Zr
规格或纯度 99%(metals basis 去除铪)
英文名称 Zirconium boride
运输条件 常规运输
产品介绍

有金属性。电阻略低于金属锆。加热后在较大的温度范围内稳定。熔点虽高,但在较低温度下能烧结。由金属锆与碳化硼、氮化硼混合后在氩气流中加热至2000℃制得。 可用作宇航耐高温材料、耐磨光滑的固体材料、切削工具、温差热电偶保护管以及电解熔融化合物的电极材料。特别适于用作滚动轴承滚珠的表面。
纯度 ≥99% metals basis

名称和识别符

PubChem SID 488196315
EC号 234-963-5
INCHI 1S/2B.Zr
InChi Key VWZIXVXBCBBRGP-UHFFFAOYSA-N
Smiles [B].[B].[Zr]
Isomeric SMILES [B].[B].[Zr]
PubChem CID 9812765
分子量 112.84

化学和物理性质

溶解性 Insoluble in water.
熔点 3000°C

安全和危险性(GHS)

个人防护装备 Faceshields, full-face respirator (US), Gloves, Goggles, multi-purpose combination respirator cartridge (US), type ABEK (EN14387) respirator filter

质检证书(CoA,COO,BSE/TSE 和分析图谱)

C of A & Other Certificates(BSE/TSE, COO):
输入批号以搜索分析图谱:

通过匹配包装上的批号来查找并下载产品的 COA,每批产品都进行了严格的验证,您可放心使用!

找到10个结果

批号(Lot Number) 证书类型 货号
E2326568 分析证书 Z102841
E2326571 分析证书 Z102841
E2326575 分析证书 Z102841
E2326561 分析证书 Z102841
E2326562 分析证书 Z102841
E2326564 分析证书 Z102841
E2326567 分析证书 Z102841
C2212084 分析证书 Z102841
C2212086 分析证书 Z102841
C2212152 分析证书 Z102841

此产品的引用文献

如何在您的发表作品中引用阿拉丁的产品和网站? 引用文献检索

引用文献

1. Yingjun Liu, Jianjun Sha, Cheng Su, Jixiang Dai, Yufei Zu.  (2023)  Phase composition, densification behavior and high-temperature strength of carbon-doped ZrB2–ZrSi2 ceramics.  CERAMICS INTERNATIONAL,  49  (39083).  [10.1016/j.ceramint.2023.09.246]
2. Shuang Meng, Minglu Sun, Peng Zhang, Chenying Zhou, Chuanshu He, Heng Zhang, Yang Liu, Zhaokun Xiong, Peng Zhou, Bo Lai.  (2023)  Metal Borides as Excellent Co-Catalysts for Boosted and Long-Lasting Fenton-like Reaction: Dual Co-Catalytic Centers of Metal and Boron.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,  57  (33): (12534–12545).  [PMID:37555746] [10.1021/acs.est.3c03212]
3. Yuting Duan, Jincui Ren, Chaofeng Lv, Xinyi Li, Yisheng Wu.  (2023)  Effect of ZrB2 and Polyvinyl Butyral Content on the Oxidation Resistance of ZrB2–SiC Coatings Produced by Slurry Brushing Method.  ADVANCED ENGINEERING MATERIALS,  25  (19): (2300391).  [10.1002/adem.202300391]
4. Mingcheng Zhu, Lan Zhang, Na Li, Desen Cheng, Jidong Zhang, Shiyao Yu, Hui Bai, Huizhong Ma.  (2022)  Microstructures and mechanical properties of reactive spark plasma-sintered ZrB2–SiC–MoSi2 composites.  CERAMICS INTERNATIONAL,  48  (27401).  [10.1016/j.ceramint.2022.05.378]
5. Wei Zhao, Dan Xu, Yanli Chen, Jiaen Cheng, Cun You, Xin Wang, Shushan Dong, Qiang Tao, Pinwen Zhu.  (2022)  Surface Modification towards Integral Bulk Catalysts of Transition Metal Borides for Hydrogen Evolution Reaction.  Catalysts,  12  (2): (222).  [10.3390/catal12020222]
6. Yumin An, Yi Yang, Yongna Jia, Wenbo Han, Yehong Cheng.  (2021)  Mechanical properties of biomimetic ceramic with Bouligand architecture.  JOURNAL OF THE AMERICAN CERAMIC SOCIETY,  105  (4): (2385-2391).  [10.1111/jace.18262]
7. Xiangzhao Zhang, Puhao Xu, Xinyue Wu, Xinyi Gui, Guiwu Liu, Mingfen Zhang, Haining Meng, Guanjun Qiao.  (2021)  Insight into the wetting and interfacial behavior of Cu-Ti/ZrB2 system: A combined experimental and DFT calculation.  JOURNAL OF THE EUROPEAN CERAMIC SOCIETY,  41  (6213).  [10.1016/j.jeurceramsoc.2021.06.002]
8. Lingxi Qu, Wanying Zhang, Guangdong Zhao, Dongyu Zhao.  (2021)  Design of a ductile carbon nanofiber/ZrB2 nanohybrid film with entanglement structure fabricated by electrostatic spinning.  CERAMICS INTERNATIONAL,  47  (15114).  [10.1016/j.ceramint.2021.02.069]
9. Yingjun Liu, Yufei Zu, Hongliang Tian, Jixiang Dai, Jianjun Sha.  (2021)  Microstructure and mechanical properties of continuous carbon fiber-reinforced ZrB2-based composites via combined electrophoretic deposition and sintering.  JOURNAL OF THE EUROPEAN CERAMIC SOCIETY,  41  (1779).  [10.1016/j.jeurceramsoc.2020.10.044]
10. Wu Yicheng, He Yannan, Yu Zhiqiang.  (2019)  Flexural Stress Homogenization Effects of Interfacial Transition Layers in Modified ZrB2-Al2O3/Epoxy Composites.  JOURNAL OF WUHAN UNIVERSITY OF TECHNOLOGY-MATERIALS SCIENCE EDITION,  34  (5): (1003-1007).  [10.1007/s11595-019-2150-7]
11. Junnan Zhang, Xuening Rong, Chang Xu, Aming Xie, Shuxin Deng.  (2019)  Dielectric loss and nonlinear resonance properties of zirconium boride (ZrB2) high-temperature ceramic.  Materials Research Express,  (9): (96312).  [10.1088/2053-1591/ab30e7]
12. Jiacheng Wu, Zhuoying Jia, Yannan He, Zhiqiang Yu.  (2018)  Investigation on thermal stability and tribological properties of ZrB2 particles filling cyanate ester resin composites by experiments and numerical simulation.  POLYMER ENGINEERING AND SCIENCE,  59  (3): (602-607).  [10.1002/pen.24975]
13. Yicheng Wu, Yannan He, Zhiqiang Yu, Xiaoyan Liu.  (2018)  Thermal conductive behavior of zirconium boride coated by nanoalumina with different mass proportions in epoxy composites.  Progress in Natural Science-Materials International,  28  (345).  [10.1016/j.pnsc.2018.04.012]
14. Yicheng Wu, Zhiqiang Yu, Xiaoyan Liu.  (2017)  Tribological performance of in-situ epoxy composites filled with micro-sized ZrB2 particles.  COMPOSITES PART B-ENGINEERING,  123  (148).  [10.1016/j.compositesb.2017.05.027]
15. Liu Xiaoyan, Wu Yicheng, Yu Zhiqiang.  (2017)  Tribological Properties of Organic Functionalized ZrB2–Al2O3/Epoxy Composites.  TRIBOLOGY LETTERS,  65  (1): (1-9).  [10.1007/s11249-016-0797-1]
16. Dong HUANG, Ming-yu ZHANG, Qi-zhong HUANG, Li-ping WANG, Xian TANG, Xin YANG, Kai TONG.  (2015)  Fabrication and ablation property of carbon/carbon composites with novel SiC–ZrB2 coating.  TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA,  25  (3708).  [10.1016/S1003-6326(15)64012-2]
17. Xiaolei Yang, Zhiqiang Yu, Yicheng Wu.  (2015)  Organosilanes Surface Modification of Zirconium Diboride Composite Engineering Ceramics and Its Effect on the Tribological Performance of Epoxy Composites.  ADVANCED ENGINEERING MATERIALS,  18  (4): (542-549).  [10.1002/adem.201500285]
18. Dong Huang, Mingyu Zhang, Qizhong Huang, Liping Wang, Liang Xue, Xian Tang, Kejian He.  (2015)  Ablation mechanism of C/C–ZrB2–ZrC–SiC composite fabricated by polymer infiltration and pyrolysis with preform of Cf/ZrB2.  CORROSION SCIENCE,  98  (551).  [10.1016/j.corsci.2015.05.064]
19. Haozhen Li, Chong Wei, Zixiong Cao, Yi Zhang, Xiaoqiang Li.  (2024)  Deep learning-based microstructure analysis of multi-component heterogeneous composites during preparation.  COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING,  186  (108437).  [10.1016/j.compositesa.2024.108437]
20. Yingjun Liu, Jin Wang, Ran Jing, Yang Zhang, Zhongni Liao, Yufei Zu.  (2024)  Enhanced fracture properties of continuous Cf/ZrB2-based composites with polydopamine-derived carbon boundary layer.  Surfaces and Interfaces,  46  (103925).  [10.1016/j.surfin.2024.103925]
21. Ning Zhong, Jean Baptiste Maniriho, Qianlin Wu, Xiaodong Wang, Yijia Gu, Wenge Li, Yuantao Zhao.  (2024)  Enhanced mechanical properties and corrosion resistance of electro-deposited NiCoP composite coatings with ZrB2 particle addition.  PHYSICA SCRIPTA,  99  (7): (075978).  [10.1088/1402-4896/ad5116]
22. Xin Wang, Jinming Liu, Haiming Chen, Shihao Zhou, Dongsheng Mao.  (2024)  Non-Woven Fabric Thermal-Conductive Triboelectric Nanogenerator via Compositing Zirconium Boride.  Polymers,  16  (6): (778).  [PMID:38543384] [10.3390/polym16060778]
23. Yiying Sun, Huaimin Wang, Meng Shuang, Chenying Zhou, Yiming Sun, Heng Zhang, Yang Liu, Peng Zhou, Bo Lai.  (2025)  Self-cleaned surface of vanadium boride for long-lasting and boosted Fenton oxidation.  JOURNAL OF HAZARDOUS MATERIALS,  481  (136518).  [PMID:39561541] [10.1016/j.jhazmat.2024.136518]
24. Ruiji Zhang, Fangwei Guo, Wenchen Zhang, Fei Pan, Xing Zhang.  (2025)  Spatial toughening mechanism of ZrB2-SiC spiral fibers composites up to 1500 °C via SEVNB with femtosecond lasers and 3D-XRM methods.  CERAMICS INTERNATIONAL,  51  (54).  [10.1016/j.ceramint.2024.10.327]

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