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XWJ—600B玻璃化温度测定仪
XWJ—600B玻璃化温度测定仪是由系统机控制,使试样在炉体内以一定的加热(制冷)速率加热(制冷)试样,使试样在恒定的较小的负荷下随温度升高(降低)发生形变,测量试样温度—形变曲线并通过分析该试样的温度—形变曲线,研究高分子材料力学性能的仪器。它能够测定材料在等速升温条件下的温度、变形曲线,从而确定材料的玻璃化温度Tg和流动温度Tf。它能测量各种材料的热膨胀系数,从而确定这些材料的点,烧结过程、收缩率、热膨胀等特性。可广泛应用于高分子及其合成材料、药物、陶瓷等材料的科研和生产中。
该仪器符合国家标准GB/T 11998塑料玻璃化温度测定方法 热机械分析法
1.工作原理
聚合物试样随温度上升,从玻璃态转变为高弹态,从高弹态转变为流动态。试样的高弹态和流动态是可以通过形变过程而确定的。所以该机的工作原理就是通过铂电阻Pt100感温元件测量炉内的温度,由PLC进行PID运算,控制加热部件或制冷单元,达到等速升温的目的。形变由数显百分表显示并输出位移信号上传至PC机,PC机绘制温度-变形曲线。最后通过在温度-变形曲线上找到拐点得到Tg和Tf值。
对应于拉伸、针入等不同的实验形式,将高分子材料制成标准尺寸的试样,放入对应的试样安装架中,一同装入控温炉。通过电加热器或液氮流、高精度控温传感器、计算机系统组成控温系统,控制保温炉的温度及升、降温速率,并实时监测试样的温度。通过加载杆、砝码对试样施加恒定的试验力。通过数显千分表实时测定试样的形变量。具有一机多用,灵活方便的特点。
2.技术指标
3.1 实验舱温度
3.1.1 实验舱温度范围:-196℃~500℃
3.1.2 实验舱温度控制范围:-70℃~500℃(带制冷)
3.1.3 温度准确度:±0.5℃
3.1.4 升温速率:0.5℃/ min~5℃/ min
降温速率:-0.5℃/ min~-2℃/ min。(带制冷)
3.1.5 控温元件:Pt100
3.1.6 炉腔测温单元:热电偶T
3.1.7 温度分辨率:0.1℃
3.2 试样变形位移测量
3.2.1位移有效测量范围:5mm
3.2.2 位移测量分辨率:0.001mm
3.2.3 位移测量准确度:±0.005mm
3.2.4 数字千分表显示,RS232串口数据输出
3.3 载荷部分
3.3.1 加载杆质量:260g
3.3.2 砝码:300g、500g、1000g、1500g
3.4 时间显示
内部时钟自动计算,时间误差:±1s/h
3.5 加热部分
采用固态继电器控制的电阻丝加热
3.5.1 加热电压:AC220V,50Hz
3.5.1 加热功率:800W
3.6 制冷部分
3.6.1 制冷剂:液态氮,理论温度值:-196℃
3.6.2 制冷瓶容积:30L
3.6.3气泵流量:37L/min
3.6.4 罐体压力:0.16Mpa
3.6.5 工作压力:0.03~0.08Mpa
3.6.6 控制开关:低温电磁阀
3.7 试验方式
拉伸,弯曲,压缩,针入,
3.7.1 拉伸试样:
3.7.1.1 夹持厚度:<3 mm
3.7.2 弯曲试样:
3.7.2.1 弯曲压头半径:R3.0±0.10 mm
3.7.2.2 弯曲支点半径:R3.0±0.10 mm
3.7.2.3弯曲支座间距:15.0 mm
3.7.3 压缩试验:
3.7.3.1 压头面积:12.56mm2
3.7.3.2 压头直径:Φ4.0±0.05 mm
3.7.4 针入试验
3.7.4.1 针头面积:1.00 mm2
3.7.4.2 针头直径:Φ1.13±0.05 mm
3.7.5 膨胀试验
3.8 总电源功率:1000W
3.9 电 源:220V±10%,50Hz
3.10 仪器外型尺寸:350mm×300 mm×600 mm
3.11 仪器重量:约 10kg
本公司供应万吉热机分析仪质量保证,洽谈。
Said engine analyzer products
Engine analyzer is machine controlled by a computer system, is the study of polymer materials mechanical properties of the instrument, it can measure the material under the condition of constant temperature curve of temperature, deformation, so as to determine the glass transition temperature Tg and material flow temperature Tf (standards: GB11998).It can measure all kinds of material thermal expansion coefficient, to determine the material of the abnormal points, sintering process, shrinkage rate and thermal expansion properties.Can be widely used in polymer and its composite materials, medicines, ceramic materials such as scientific research and production.
Main engine analyzer performance indicators:
Low measurement form:
1, compression, bending, stretching, through four stress form;2, expansion deformation
Low temperature range:
1, 35 ℃ low temperature furnace: - - room temperature;2, high temperature furnace: at room temperature to 500 ℃
Low rise and cooling rate:
1, warming: 0.5-5 ℃ / min;1, 2, 5 ℃ / min (commonly used high temperature furnace with)
2, cool: - 0.5-2 ℃ / min;1.2 ℃ / min (commonly used low temperature furnace with)
Low heat engine analyzer deformation measurement range:
1, for compression, bending, stretching, through four test of 0-2.5 mm;2, for expansive deformation test of 0-0.5 mm
The computer system software to realize the function of:
Low temperature real-time display test - deformation curve
Low real-time display test temperature - time curve
Low for compression test and penetration test can automatically calculate the glass transition temperature
And flow temperature
Low for expansion test can automatically calculate the coefficient of expansion
Low print test curve and test report
Low at any time to access and view all previous test curve
Low test curve calculation of TG and Tf can real-time display and hide
When using password protection
Low to meet the requirements of gb standard style can be arbitrary choice
Automatic removal of software digital filter, false signals
Low automatic error correction
Arriving or low test limit temperature, lower limit temperature alarm
Low system date and time Settings
Good openness, easy to transplant and extensions
Our company supply his engine analyzer, quality assurance, welcome consultation discussion.