2.PDF卡片1)1938年,J.D.Hanawalt等就开始收集并摄取各种已知物质的衍射花样,将这些衍射数据进行科学分析整理、分类。2)1942年,美国材料试验协会ASTM整理出版了最早的一套晶体物质衍射数据标准卡,共计1300张,称之为ASTM卡。3)1969年,“粉末衍射标准联合委员会”(TheJointCommitteeonPowderDiffractionStandards,JCPDS)负责编辑出版“粉末衍射卡片”,即PDF卡(ThePowderDiffractionFile),也称为JCPDS卡片
2. PDF卡片 1) 1938年,J.D.Hanawalt等就开始收集并摄取各种已知物质 的衍射花样,将这些衍射数据进行科学分析整理、分类。 2) 1942年,美国材料试验协会ASTM整理出版了最早的一套 晶体物质衍射数据标准卡,共计1300张,称之为ASTM卡。 3) 1969年, “粉末衍射标准联合委员会”(The Joint Committee on Powder Diffraction Standards,JCPDS), 负责编辑出版“粉末衍射卡片” ,即 PDF卡(The Powder Diffraction File),也称为JCPDS卡片
2.PDF卡片10PDF卡片形式d1b1d87la1cI/IiI/I,I/I2b202ddAhkldAhkl2a人Rad.FilterCutoffDiaColl.II1d corr.abs.?3Ref.Sys.S.G.CAbgagCoAZY994RefnoβSignEeyD2VColormp5Ref.6
15-7763.39d3.432.215.393Al203:2SiO★(1) la, 1b, 1c1/I1Aluminum Silicate100609550d(A)d(A)1/ 111/ 1,RadCuKal 入1.5405Filler Ni Dia.hklhkl三数据为三CutoffI/IDiffractometer5.39501101.71252406Ref. National Bureau of Standards条最强衍射83.7741.700132120014(U.S.)Monograph253.428951201.694042010线对应的面Set.3(1964)3.3901002101.599904120Sys.Orthorhombic S.G.Pbam(55)2.886200011.578640112间距,1d为最ao7.5456bo7.6898co2.88422.694402201.56441412A0.98124C0.37506大面间距;1112.542501.54612411apyZ3/4Dx3.1701302.428141.524233135Ref.Ibid.2.393<23101.5067150<2ea1.637nwp1.641EY(2) 2a, 2b, 2c,2.30840211.4811510<21.652Sign2.292202011.4731241<22d为上述各2VDColorColorlessmp2.206601214211.46058Ref.Ibid.2.121252301.442100218衍射线的相Sample was prepared at NBS by C.2.10683201.42402504Robbins.Spec.anal.:1.96922215201.40468对强度,其0.01 to 0.1 Fe,and 0.001 to 0.011.92320401.3932112<2each of Ca,Cr,Mg,Mn,Ni,Ti,1.887中最强线的84001.3494341and Zr.61.863<21401.3462440Patternwasmadeat25℃.强度为100;1.84110311121.3356151Chem.Anal.Showed61.6Al2O3381.7954<2330linesplus 24tol.0065(mole.)SiO2莫来石的PDF卡片
(1)1a,1b,1c 三 数 据 为 三 条 最 强 衍 射 线 对 应 的 面 间距,1d为最 大面间距; (2)2a,2b,2c, 2 d 为 上 述 各 衍 射 线 的 相 对 强 度 , 其 中 最 强 线 的 强度为100;
15-776(3)d3.392.215.393.433Al2O3·2SiO2★Aluminum Silicate1/I1100956050辐射光源d(A)d(A)Rad1/ I,hkl1/ICuKal入1.5405FillerNiDia.hklCut off1/1,Diffractometer波长A5.39501101.71252406Ref.National Bureau of Standards83.7742001.700132114(U.S.)Monograph25滤波片3.428951201.694042010Set.3(1964)3.3901002101.599904120Sys.Orthorhombic S.G.Pbam(55)相机直径2.886200014011.578612ao7.5456bo7.6898co2.88422.694402201.56442141A0.98124C0.37506所用仪器可测最2.542501111.54612411apyZ3/4Dx3.170大面间距2.428141301.524235331Ref.Ibid.2.393<23101.5067150<2Ea1.637nwp1.641测量相对强度的EY2.30840211.4811510<21.652Sign方法2.292202012411.4731<22VDColorColorlessmp2.206601214211.46058数据来源Ref.Ibid.2.121252301.442100218Sample was prepared at NBS by C.2.10683201.42402504Robbins.Spec.anal.:1.96922215201.404680.01 to 0.1 Fe, and 0.001 to 0.011.92320401121.3932<2each of Ca,Cr,Mg,Mn,Ni,Ti.1.88784001.3494341and Zr.61.863<21401.3462440Patternwasmadeat25℃.1.84110123111.3356151Chem.Anal.Showed61.6Al2O3381.7954lines<2330plus 24tol.0065(mole.)SiO2图6-1莫来石的PDF卡片
(3) 辐射光源 波长 Å 滤波片 相机直径 所用仪器可测最 大面间距 测量相对强度的 方法 数据来源
15-776d3.392.215.393.433Al2O3·2SiO2★Aluminum SilicateI/I1100955060d(A)d(A)RadCuKa1.5405Filler Ni Dia.1/ Ihkl1/I(4)晶体学数据hklCutoffI/I,Diffractometer晶系5.39501101.71252406Ref.National Bureau of Standards83.7742001.700132114(U.S.)Monograph25空间群3.428951201.694042010Set.3(1964)3.3901002101.599904120晶胞边长Sys.Orthorhombic S.G.Pbam(55)2.886200014011.578612Qo7.5456bo7.6898轴率co2.88422.694402201.56442141A0.98124C0.37506A=ao/bo C=co/bo2.542501111.54612411apyZ 3/4Dx3.1702.428141301.524235331轴角Ref.Ibid.2.393<23101.5067150<21.637nwp1.641EaEY单位晶胞内“分子”数2.30840211.4811510<21.652Sign2.292202012411.4731<2数据来源2VDColorColorlessmp2.206601214211.46058Ref.Ibid.2.121252301.442100218Sample was prepared at NBS by C.2.10683201.42402504Robbins. Spec. anal. :1.96922211.404652080.01 to 0.1 Fe, and 0.001 to 0.011.92320401121.3932<2each of Ca,Cr,Mg,Mn,Ni,Ti,1.88784001.3494341and Zr.61.863<21401.3462440Patternwasmadeat25℃.1.84110123111.3356151Chem.Anal.Showed61.6Al2O3381.7954<2330plus 24linestol.0065(mole.)SiO2图6-1莫来石的PDF卡片
(4)晶体学数据 晶系 空间群 晶胞边长 轴率 A=a0/b0 C=c0/b0 轴角 单位晶胞内“分子”数 数据来源