JGS1、JGS2、JGS3光学石英玻璃

石英玻璃光学石英玻璃片，能耐高温和高压等优点，是其他光学材料所无法替代的。

石英玻璃具有良好的紫外透过性能；可见光和近红外光吸收极低，所以是生产光导纤维的基础材料。

热膨胀系数极小，化学稳定性好，气泡、条纹、均匀性、双折射可与一般光学玻璃媲美，它是在恶劣场合下工作优选的光学材料。

主要应用于：特种光源，光学仪器，光电子，军工，冶金，半导体，光通讯等领域。

它能实验温度：1200度，软化温度为：1730度，具体参数如下：1．（远紫外光学石英玻璃）对应牌号JGS1它是用高纯度氢氧熔化的光学石英玻璃，所以含有大量的羟基（2000ppm），具有优良的透紫外性能，特别是在短波紫外区，其透过性能远远地胜过所有其他玻璃，在185μm处的透过率可达90％，合成石英玻璃在2730nm处具有很强的吸收峰，无颗粒结构。

是185—2500mμ波段范围内的优良光学材料。

2．（紫外光学石英玻璃）对应牌号JGS2石英原料和氢氧焰生产的石英玻璃，含有几十ppm的金属杂质。

在2730nm处有吸收峰（羟基含量100-200ppm），有条纹和颗粒结构。

它是透过220—2500μm波段范围内的良好材料。

3．（红外光学石英玻璃）对应牌号JGS3用石英原料和真空电熔法生产的石英玻璃，含有几十ppm的金属杂质。

有小气泡，颗粒结构和条纹，几乎不含（OH），具有较高的透红外性能，透过率高达85％以上，其应用波段范围260—3500μm的光学材料。

附：光学石英玻璃JC/T185-1996标准，含光谱透光率、特征等。

(原标准JC 185-81(96)《JGS1、JGS2、JGS3，光学石英玻璃》作废。

)石英玻璃光谱图石英玻璃光学常数各种光学石英玻璃JGS-1 JGS-2 JGS-3所能达到的最高类别光谱特性平均透过率180-2500nm 200-2500nm 260-3500nm 90% 85% 85%气泡类别0 2 2双折射1-2 1-2 1-2 颗粒结构 1 2 2条纹1-2 1-2 2均匀性1-2 2 2荧光 1 2 2防辐射性能不变色轻微变色变色石英玻璃物理性能表1.机械性能标准值密度 2.2g/cm3抗压强度1100Mpa抗弯强度67Mpa抗拉强度48Mpa泊松比μ0.14～0.17杨氏模量E 72000Mpa刚性模量31000Mpa莫氏硬度 5.5～6.5表2.热性能标准值变形点1280℃软化点1780℃退火点1250℃比热(20～350℃) 670J/kg.℃热导率(20℃) 1.4W/m.℃折射率 1.4585热膨胀系数 5.5×10-7cm/cm. ℃热加工温度1750～2050℃短期使用温度1300℃长期使用温度1100℃宜兴市和桥镇晶禾光学仪器经营部开户行：中国工商银行宜兴和桥支行账号：110 302 950 900 033 1010法人代表：夏正平借款人：王英杰金额：656.00元陆佰伍拾陆圆整课题号：。

JGS1、JGS2、JGS3光学石英玻璃时间：2003-03-21 出处：点击率：1770 字号：小大标准名称：JGS1、JGS2、JGS3光学石英玻璃标准类型：中华人民共和国国家标准标准号：JC 185－81标准发布单位：国家标准局发布标准正文：正文一、牌号、名称与类别1．光学石英玻璃的牌号与名称（见表1）。

表１牌号名称应用光谱波段（毫微米）JGS1 远紫外光学石英玻璃 185- 2500JGS2 紫外光学石英玻璃 220- 2500JGS3 红外光学石英玻璃 260- 3500注：可见光石英玻璃可在以上三种牌号内任意选择。

2．光学石英玻璃按下列各项质量指标分类和定级。

（1）光谱特性：分三类；（2）光学均匀性：分五类。

（3）双折射：分五类；（4）条纹：分三类和三级；（5）颗粒不均匀性：分三类；（6）气泡：分七类；（7）荧光特性：分二类。

3．光谱特性（1）JGS1远紫外光学石英玻璃按光谱特性分为三类（见表2）。

表２厚度10毫米毛坯的透过率（％）类别 185 200 220 240 300 185- 12001 ＞85 ＞85 ＞85 ＞87 ＞90 无吸收峰2 ＞70 ＞80 ＞80 ＞80 ＞85 无吸收峰3 ＞70 ＞70 ＞70 ＞80 允许有吸收峰(2)JGS2紫外光学石英玻璃按光谱特性分三类（见表３）。

表３厚度10毫米毛坯的透过率（％）类别 200 240 3001 ＞80 ＞75 ＞802 ＞75 ＞70 ＞753 ＞65 ＞70(3)JGS3红外光学石英玻璃按光谱特性分为三类（见表4）。

表４厚度10毫米毛坯的透过率（％）类别 2000 2500 2700 2800 2600- 28001 ＞90 ＞90 ＞90 ＞85 无吸收峰2 ＞85 ＞85 ＞85 ＞80 无吸收峰3 ＞80 ＞80 ＞75 ＞75 允许有吸收峰(4)JGS1、JGS2、JGS3厚度10毫米毛坯可见光部分平均透过率均应大于90％。

电介质的介电常数温度() 温度()石英玻璃电学性能石英玻璃具有很高的介电强度，很低的电导率折电损失，即使在高温时，其电导率与介电损失也较一般材料低，特别适合高温高机械应力条件下作高频和电压绝缘材料。

电导率在20o C时，透明石英玻璃的电导率为10-17-10-16西/米，不透明石英玻璃的电导率为10-14-3.2×10-13西/米，其值与石英玻璃的纯度有关。

介电常数在常温和0-106赫兹频率下，透明石英玻璃的介电常数为3.70；不透明石英玻璃为3.50，温度升高，介电常数略有增加，到450o C以后，介电常数显著增加。

介电损失石英玻璃的介电损失与温度的关系是随温度的升高，介电损失增加，在350o C 以上，介电损失随温度的升高而增加更为显著。

石英玻璃的介电损失击穿强度在200o C时，透明石英玻璃的击穿电压约为普通玻璃的三倍， 500o C时为普通玻璃的十倍。

石英光学玻璃我厂生产的光学石英光学玻璃窗口片，能耐高温和高压，主要应用于：特种光源，光学仪器，光电子，军工，冶金，半导体，光通讯等领域。

它能实验温度：1200度，软化温度为：1730度，具体参数如下。

1．JGS1（远紫外光学石英光学玻璃）它是用高纯度氢氧熔化的光学石英光学玻璃。

具有优良的透紫外性能，特别是在短波紫外区，其透过性能远远地胜过所有其他玻璃，在185mμ处的透过率可达90％，是185—2500mμ波段范围内的优良光学材料。

2．JGS2（紫外光学石英光学玻璃）它是用氢氧熔化的光学石英光学玻璃。

它是透过220—2500mμ波段范围内的良好材料。

3．JGS3：（红外石英光学玻璃）它是具有较高的透红外性能，透过率高达85％以上，其应用波段范围260—3500mμ的光学材料。

石英光学玻璃物理性能高硼硅3.3耐热冲击浮法平板玻璃——一种真正全能、广泛应用的材料！高硼硅3.3耐热冲击浮法平板玻璃是使用浮法工艺生产的，以氧化钠（Na2O)、氧化硼（B2O3)、二氧化硅（SiO2）为基本成份的一种平板玻璃。

第⼆讲有⾊光学玻璃第⼆节有⾊光学玻璃⼀、有⾊光学玻璃的分类及牌号（有⾊光学玻璃按着⾊剂的种类不同可分为）1、离⼦着⾊选择吸收玻璃着⾊剂在玻璃中呈离⼦状态，称离⼦着⾊选择吸收玻璃。

离⼦着⾊剂通常采⽤⾦属钴、镍、钼、锰、铬、铀、钛、铜的氧化物，（例如氧化钴使玻璃呈兰⾊，氧化亚镍使玻璃呈紫⾊或棕⾊。

）这类有⾊玻璃在有⾊玻璃中占⽐重最⼤，品种最多。

这类玻璃的特点是：在整个光谱域内，对某⼀波段吸收多⼀些，⽽对另⼀波段透过多⼀些。

它的光谱特性曲线在某⼀段有明显的“⾕”和“峰”，故称选择吸收玻璃。

离⼦着⾊选择吸收玻璃包括：透紫外线玻璃（ZWB ），紫⾊玻璃（ZB ），青⾊玻璃（QB ），绿⾊玻璃（LB ），透红外玻璃（HWB ），防护玻璃（FB ），透紫外线⽩⾊玻璃（BB ）。

2、硒镉着⾊玻璃这类着⾊玻璃采⽤硒化镉和硫化镉作为着⾊剂。

由于着⾊剂在玻璃中呈胶态，亦称胶态着⾊玻璃。

硒镉玻璃的特点是：有⼀个较宽的⾼透过区和⼀个⾼吸收区，在两者之间有⼀个过渡区，此外光谱透过率的变化是异常迅速的，过渡区愈窄，玻璃的截⽌性能就愈好。

硒镉玻璃包括：红⾊（HB ），⾦⾊（JB ），和橙⾊（CB ）三种。

3、中性玻璃中性玻璃也是离⼦着⾊玻璃，它的特点是在可见光区域能⽐较均匀的降低光源的光强度，⽽不改变其光谱成分。

中性玻璃的牌号有AB1，AB2，AB3……AB10这类玻璃主要是做中性滤光⽚、减光镜等。

有⾊光学玻璃⼜称光学滤光玻璃，它主要⽤来制作观察、照相、红外等仪器的滤光⽚，以达到提⾼仪器能见度或满⾜某些特殊要求，还可制作有⾊眼镜。

⼆、有⾊光学玻璃的光谱特性有⾊光学玻璃的作⽤是：它能选择的透过特定波长的光线；能从不连续的光谱中分离出单⼀谱线；或由连续的光谱中滤出⼀定宽度的光谱范围或均匀减弱⽩光的光谱等。

λT 、光密度λD 和吸收率λE 等来表⽰。

设波长为λ的光通过厚度为l mm 的有⾊光学玻璃的透过率为：21)1(R T T l -=λλ（1-37）1λT ——厚度为1mm 的有⾊玻璃仅与吸收有关的透过率；l ——为试样长度；R ——为有⾊玻璃表⾯的反射⽐； 211??+-=n n R 将式（1-37）取对数，得到21)1lg(lg lg R T l T -+=λλ已知光密度的定义式为：λλT D lg -=光密度表⽰：厚度为l 的玻璃试样的光密度，它表⽰玻璃材料对光的透过率特性，透过率⼩，光密度⼤。

Fused silicaFused silicaFused Silica is the glassy form of quartz and is thus isotropic. It is tough and hard and has a very low expansion. Normal varieties contain water that gives strong absorption in the IR. Water-free varieties are available.Fused Silica includes three types: JGS1 (Ultraviolet Grade Fused Silica),JGS2 (Optical Grade Fused Quartz), and JGS3 (Full Spectrum Fused Silica).Today advances in raw material beneficiation permit transparent fusions from sand as well as from crystal. Consequently, if naturally occurring crystalline silica (sand or rock) is melted, the material is simply called Fused Quartz. If the silicon dioxide is synthetically derived, however, the material is referred to as synthetic Fused Silica.These materials are ultra pure, single component glasses (SiO2) with a unique combination of thermal, optical and mechanical properties, which make them the preferred materials for use in a variety of processes and applications where other materials are not suitable. The very high purity (over 99.9%) ensures minimum contamination in process applications.Fused Quartz is less expensive vitreous silica formed by fusing naturally occurring quartz crystal or lower grade synthetic stock material, The UV use is limited to 250nm and this material is usually used for windows covering visible wavelengths.Fused Silica is vitreous silica formed by fusing high purity synthetic material. The UV use can be reached about 160nm.Ultraviolet Grade Fused Silica: JGS1 (China), equivalent to Suprasil 1 and 2 (Heraeus), Spectrosil A and B (Saint-Gobain) and Corning 7940 (Corning), Dynasil 1100 and 4100 (Dynasil).Optical Grade Fused Quartz: JGS2 (China), equivalent to Homosil 1, 2 & 3 (Heraeus), Dynasil 1000 & 4000 and 5000 & 6000 (Dynasil)------------------------Fused Silica, SiO2 Glass PropertiesFused silica is a noncrystalline (glass) form of silicon dioxide (quartz, sand). Typical of glasses, it lacks long range order in its atomic structure. It’s highly cross linked three dimensional structure.Key Fused SilicaTypical Fused Silica UsesHigh purity sand deposits provide the raw material for bulk refractory grade, which is electric arc melted at extremely high temperatures. Optical and general purpose fused silica rods and tubing are drawn from a melt made from high purity chemicals. Fiber optic purity is made by thermal decomposition of high purity gaseous silica containing chemicals. The glass may be clear or translucent, in which case it is often referred to as fused quartz. The glass has very high viscosity, and this property allows the glass to be formed, cooled and annealed without crystallizing. Fused silica glass is a very low thermal expansion material, and so is extremely thermal shock resistant. The material is also chemically inert up to moderate temperatures except to hydrofluoric acid, which dissolves silica. It will devitrify above about 1100°C in the presence of contaminants such as sodium, phosphorus and vanadium, with the formation of cristobalite crystals which destroy the properties of the glass. The dielectric properties are stable up through gigahertz frequencies. Download Fused Silica datasheetFused Silica Engineering Properties*The data presented is typical of commercially available material and is offered for comparative purposes only. The information is not to be interpreted as absolute material properties nor does it constitute a representation or warranty for which we assume legal liability. User shall determine suitability of the material for the intended use and assumes all risk and liability whatsoever in connection therewith.。

Fused silica石英玻璃Fused silicaFused silicaFused Silica is the glassy form of quartz and is thus isotropic. It is tough and hard and has a very low expansion. Normal varieties contain water that gives strong absorption in the IR. Water-free varieties are available.Fused Silica includes three types: JGS1 (Ultraviolet Grade FusedSilica),JGS2 (Optical Grade Fused Quartz), and JGS3 (Full Spectrum Fused Silica).Today advances in raw material beneficiation permit transparent fusions from sand as well as from crystal. Consequently, if naturally occurring crystalline silica (sand or rock) is melted, the material is simply called Fused Quartz. If the silicon dioxide is synthetically derived, however, the material is referred to as synthetic Fused Silica.These materials are ultra pure, single component glasses (SiO2) with a unique combination of thermal, optical and mechanical properties, which make them the preferred materials for use in a variety of processes andapplications where other materials are not suitable. The very high purity (over 99.9%) ensures minimum contamination in process applications.Fused Quartz is less expensive vitreous silica formed by fusing naturally occurring quartz crystal or lower grade synthetic stock material, The UV useis limited to 250nm and this material is usually used for windows covering visible wavelengths.Fused Silica is vitreous silica formed by fusing high purity synthetic material. The UV use can be reached about 160nm.Ultraviolet Grade Fused Silica: JGS1 (China), equivalent to Suprasil 1 and 2 (Heraeus), Spectrosil A and B (Saint-Gobain) and Corning 7940 (Corning), Dynasil 1100 and 4100 (Dynasil).Optical Grade Fused Quartz: JGS2 (China), equivalent to Homosil 1, 2 & 3 (Heraeus), Dynasil 1000 & 4000 and 5000 & 6000 (Dynasil)Full Spectrum Fused Silica: JGS3 (China), equivalent to Suprasil 300 (Heraeus). Different Properties Parameter Value Maximum Size Transmission Range(Medium transmission ratio) OH- Content Fluorescence (ex 254nm) JGS10.17~2.10um (Tavg>90%) 1200 ppm Virtually Free JGS2 0.26~2.10um (Tavg>85%) 150 ppm Strong v-b JGS3 0.185~3.50um (Tavg>85%) 5 ppm Strong V-B Impurity Content Birefringence Constant Melting Method Applications 5 ppm 2-4 nm/cm Synthetic CVD 20-40 ppm 4-6 nm/cm Oxy-hydrogen melting 40-50 ppm 4-10 nm/cm Electrical melting Laser substrate: Window, Semiconductor and high IR & UV substrate lens, prism, mirror... temperature window------------------------Fused Silica, SiO2 Glass PropertiesFused silica is a noncrystalline (glass) form of silicon dioxide (quartz, sand). Typical of glasses, it lacks long range order in its atomic structure. It’s highly cross linked three dimensional structure gives rise to it’s high use temperature and low thermal expansion coefficient. .Key Fused Silica Properties Near zero thermal expansion Exceptionally good thermal shock resistance Very good chemical inertness Can be lapped and polished to fine finishes Low dielectric constant Low dielectric loss Good UV transparency . Typical Fused Silica Uses High temperature lamp envelopes Temperature insensitive optical component supports Lenses, mirrors in highly variable temperature regimes Microwave and millimeter wave components Aeronautical radar windows General Fused Silica Information High purity sand deposits provide the raw material for bulk refractory grade, which is electric arc melted at extremely high temperatures. Optical and general purpose fusedsilica rods and tubing are drawn from a melt made from high purity chemicals. Fiber optic purity is made by thermal decomposition of high purity gaseous silica containing chemicals. The glass may be clear or translucent, in which case it is often referred to as fused quartz. The glass has very high viscosity, and this property allows the glass to be formed, cooled and annealed without crystallizing. Fused silica glass is a very low thermal expansion material, and so is extremely thermal shock resistant. The material is also chemically inert up to moderate temperatures except to hydrofluoric acid, w hich dissolves silica. It will devitrify above about 1100°C in the presence of contaminants such as sodium, phosphorus and vanadium, with the formation of cristobalite crystals which destroy the properties of the glass.The dielectric properties are stable up through gigahertz frequencies. Download Fused Silica datasheet Fused Silica Engineering Properties*Fused Silica Mechanical Density Porosity Color Flexural Strength Elastic Modulus Shear Modulus Bulk Modulus Poisson’s Ratio Compressive Strength Hardness Fracture Toughness KIC Maximum Use Temperature (no load) Thermal Thermal Conductivity Coefficient Expansion Specific Heat Electrical Dielectric Strength Dielectric Constant Dissipation Factor Loss Tangent VolumeResistivity of Thermal Units of Measur e gm/cc (lb/ft3) % (%) ― MPa(lb/in2x103) GPa (lb/in2x106) GPa (lb/in2x106) GPa (lb/in2x106) ― MPa(lb/in2x103) Kg/mm2 MPa?m1/2 °C (°F) SI/Metric 2.2 0 clear ― 73 31 41 0.17 1108 600 ― 1100 (Imperial) (137.4) 0 ― ― (10.6) (4.5) (6) (0.17)(160.7) ― ― (2000) (9.6) (.31) (0.18) (750) (3.82) (0.00002) ― ― W/m?°K (BTU?in/ft2?hr?°F) 1.38 10�C6/°C (10�C6/°F) J/Kg?°K (Btu/lb?°F) ac-kv/mm (volts/mil) @ 1 MHz @ 1 MHz @ 1 MHz ohm?cm 0.55 740 30 3.820.00002 ― >1010 *All properties are room temperature values ex cept as noted. The data presented is typical of commercially available material and is offered for comparative purposes only. The information is not to beinterpreted as absolute material properties nor does it constitute a representation or warranty for which we assume legal liability. User shall determine suitability of the material for the intended use and assumes allrisk and liability whatsoever in connection therewith.感谢您的阅读，祝您生活愉快。

1、k9(bk7)玻璃成分：SiO2:69.13%、B2O3：10.75%、Na2O:10.40%、K2O:6.29%、As2O3:0.36%2、石英玻璃成分：SiO2含量大于99.5%。

1．ZS-1 （远紫外光学石英玻璃）对应牌号JGS1它是用高纯度氢氧熔化的光学石英玻璃，所以含有大量的羟基（2000ppm），具有优良的透紫外性能，特别是在短波紫外区，其透过性能远远地胜过所有其他玻璃，在185μm处的透过率可达90％，合成石英玻璃在2730nm处具有很强的吸收峰，无颗粒结构。

是185—2500mμ波段范围内的优良光学材料。

2．ZS-2（紫外光学石英玻璃）对应牌号JGS2石英原料和氢氧焰生产的石英玻璃，含有几十ppm的金属杂质。

在2730nm处有吸收峰（羟基含量100-200ppm），有条纹和颗粒结构。

它是透过220—2500μm波段范围内的良好材料。

3．HS（红外光学石英玻璃）对应牌号JGS3用石英原料和真空电熔法生产的石英玻璃，含有几十ppm的金属杂质。

有小气泡，颗粒结构和条纹，几乎不含（OH），具有较高的透红外性能，透过率高达85％以上，其应用波段范围260—3500μm的光学材料。

3、硼硅玻璃(国际称PYREX玻璃)物理化学性能高硼硅玻璃（也称硬质玻璃）硼硅玻璃是利用玻璃在高温状态下导电的特性，通过在玻璃内部加热来实现玻璃熔化，经先进生产工艺加工而成；硼硅玻璃一种无色透明玻璃，具有非常低的热膨胀系数，耐高温，耐200度的温差剧变。

透过波长在300nm至2500nm之间，透射率≧90％，热膨胀系数3.3。

能耐酸和耐碱，耐高温400℃左右，如经过特殊处理耐温可达到550℃左右。

1.主要化学成分：a)Sio2：80±0.5%；b)B2O3：13±0.2%；c)Al2O3：2.4±0.2%d)Na2O（+K2O）：4.3±0.2%4、紫外玻璃。