温度均匀性测试报告材料

- 1 -温度均匀性测试报告1. 测试依据AMS 2750D—高温测量GB/T 9452-2003—热处理炉有效加热区测定方法JMHJ/RCL.03.7.6.06—温度均匀性测试规程2. 测试热电偶分布按设备有效加热区类型选择测试热电偶分布图，不同热处理设备测试热电偶分别选择分布图1-1，1-2。

3. 温度均匀性数据采集数据采集应在所有的设备或TUS 传感器达到测试温度均匀性下限之前开始。

炉子应保持在测试温度直到所有测试传感器达到稳定。

稳定后，在30分钟内连续采集数据。

数据采集周期为2分钟。

如果所有测试传感器呈现出偏高或偏低的趋势，则应该延长测试周期直到这种趋势不明显。

每一个温度测试点测温热电偶过程记录如下表，其中实际最高温度值为最高温度值与测试仪表补偿值、测试传感器补偿值代数运算后的真实最高温度值。

分布图1-2. 圆柱形有效加热区测试热电偶分布图分布图1-1. 方形有效加热区 测试热电偶分布图- 3 -- 5 -- 6 -- 7 -- 8 -- 9 -4. 温度均匀性测试报告设备有效加热区温度均匀性报告见报告末页。

5. 合格性判定温度均匀性测试合格判定依据：A整个温度均匀性测试期间，TUS传感器、控制或监测传感器读数不超过设定温度的正温度容差。

B全部热电偶到温稳定后保温期间，TUS传感器、控制或监测传感器的读数都在要求的温度容差内。

C温度均匀性测试在规定的周期时间内进行。

6. 故障处理A测试传感器不允许出故障。

如果能正常读数、保存测试点的温度，只是暂时性出现诸如短路或连接松动等状况，不能认为是测试热电偶不合格。

B如出现故障，应更换传感器重新进行温度均匀性测试。

对于故障热电偶，应查明并存档产生故障的原因，如有可能应采取纠正措施避免同样情况的出现。

温度均匀性测试报告日期______________ 编号：JMHJ/04.8.2.12测试温度点稳定前 实际最高温度值稳定后 实际最高温度值稳定后 实际最低温度值偏差范围/℃~ ~ ~~结 论有效加热区图示：检测者 日 期 审核者 日 期 批准者日 期方形有效加热区距离炉壁距离(mm) b1 b2 h1 h2 L1 L2圆柱形有效加热区距离炉壁距离(mm) d1 h1 h2。

炉温均匀性测试报告一、引言本文旨在对某炉的温度均匀性进行测试并生成测试报告。

通过测试，我们可以评估该炉的温度分布情况，从而确定其是否符合要求。

二、测试目的本次测试的目的是验证该炉的温度在整个加热区域内的分布是否均匀。

通过测试，我们可以确定该炉是否适合用于特定工艺的加热需求。

三、测试步骤1.准备工作：确保炉内没有加热物体，炉门关闭严实，炉温达到设计工作温度。

2.选择测点：在加热区域内选择一系列均匀分布的测点。

测点的数量和位置应能够充分覆盖整个加热区域，以确保测试结果的准确性。

3.安装温度传感器：在每个测点上安装温度传感器，并确保其与炉壁保持良好的接触。

4.记录数据：开始记录温度数据，并持续记录一段时间，以确保数据的稳定性和准确性。

5.分析数据：将记录的温度数据导入计算机软件，进行数据分析和处理。

6.评估均匀性：通过分析数据，绘制温度分布图，评估炉温的均匀性。

7.撰写测试报告：根据测试结果，撰写测试报告并进行总结和分析。

四、测试结果及分析经过以上测试步骤，我们得到了以下测试结果：1.温度分布图：根据记录的温度数据，我们制作了温度分布图，图中显示了炉内各个测点的温度情况。

2.温度差异：通过对温度分布图的分析，我们发现在整个加热区域内，温度存在一定的差异。

部分区域的温度较高，而其他区域则相对较低。

3.均匀性评估：根据温度差异的分析结果，我们评估了炉温的均匀性。

结果显示，该炉的温度分布不够均匀，存在一定的温度偏差。

4.原因分析：我们分析了导致温度差异的可能原因，包括炉体结构设计、加热方式、传热介质等，以确定改进的方向。

五、结论与建议根据测试结果及分析，我们得出以下结论与建议：1.结论：该炉的温度分布存在一定的不均匀性，部分区域的温度相对较高，而其他区域则较低。

2.建议：针对温度不均匀的问题，建议在设计和制造阶段加强炉体结构的优化，改善传热方式，提高炉温的均匀性。

3.改进措施：具体的改进措施可以包括优化加热元件的布局，增加炉体隔热层的厚度，改善传热介质的流动方式等。

FM-112第1页 共9页传感器位置示意图仪表编号 Meter No. S5H805420仪表校准日期 Calibration date of meter测试传感器及仪表Testing sensor and meter检测依据文件 Refer documentsAMS2750E2017 年 4月 4日Conclusion：TUS calibration for the furnace according to AMS2750E, calibration sensors didn't fail during the calibration process; And the results meet class 2 (±6℃) requirements between 480 to 760℃, meet class 4 (±10℃) requirements between 760 to 1180℃;炉门测温位置的说明 Position explanation:TUS Rack was located in the central chamber of furnace, the distance from back is 180mm, on both sides of distance is 200mm。

检测日期Date Tested 下次检测日期：Next Due Date:检测人： 核检人:Tested by(Operator) Check by(HT Engineer)批准：Issued by(Quality Manager)温 度 均 匀 性 检 测 记 录TEST RECORD OF FURNACE TEMPERATURE UNIFORMITY(SUBSTITUTE FOR TEST REPORT)使用单位 User Department : XXXXXXXXXXXXXX 设备编号 Device No. HTE1#报告编号 Report No. XXXXXX 传感器型号 Sensor model: N 仪表名称 Meter name : 无纸记录仪设备型号 Device Model: HR5072-14PSIG气氛或盐浴的种类、成分The sort and component of atmosphere or salt bath : 真空（真空度3.1×10-5 Torr）设备名称 Device name: 真空炉是否加载 Whether or not loaded: 测试架仪表类型 Instrumentation Type: B炉子等级 Furnace Class: 480-760℃ 2级(±6℃); 760-1180℃ 4级(±10℃); 加载量 Load: 无使用温度范围 Temperature Range: 2级 480-760℃ ; 4级 760-1180℃ ; 制造厂商 Manufacturer : Ipsen 传感器名称 Sensor name: 工业热电偶仪表型号 Meter model : DX2020-1-4-3Rev.0 2008.5.1第2页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected 22:10:00461.7457.5466.1464.4461.5468.8460.1468.9466.5469.2467.4Uncorrected 22:11:00464.6460.6468.8467.5464.4470.8463.4472.5469.7471.4469.6Uncorrected 22:12:00466.2462.7470.1468.8465.8471.0465.8474.7471.9472.0470.1Uncorrected 22:13:00468.2465.1472.0470.6467.8472.6468.1476.5473.8473.6471.8Uncorrected 22:14:00470.4467.3473.8472.5469.8474.2470.3478.2475.6475.3473.5Uncorrected 22:15:00471.8469.0475.1473.9471.2474.9472.1479.4477.0476.1474.5Uncorrected 22:16:00473.7471.0476.3474.9472.4475.4473.6480.1478.0476.8475.2Uncorrected 22:17:00474.0471.8476.9475.8473.4476.1474.9480.7478.8477.5475.9Uncorrected 22:18:00474.9473.0477.5476.3474.2476.5476.1481.1479.5477.9476.4Uncorrected 22:19:00475.3473.8477.6476.4474.5476.1476.7480.9479.6477.6476.6Uncorrected 22:20:00476.0474.4478.2477.0475.2476.8477.4480.9480.0478.3476.8Uncorrected 22:21:00476.8475.2478.7477.7475.8477.5478.0481.1480.2478.9477.5Uncorrected 22:22:00477.4476.0479.1478.2476.4477.9478.6481.3480.6479.2478.0Uncorrected 22:23:00477.3476.1479.0477.9476.3477.2478.9481.1480.5478.6477.5Uncorrected 22:24:00477.7476.6479.1478.2476.6477.5479.1481.0480.6479.0477.9Uncorrected 22:25:00478.3477.2479.6478.6477.2478.3479.5481.1480.7479.6478.6Uncorrected 22:26:00479.0477.8480.2479.3477.8479.1480.0481.5481.1480.3479.4Uncorrected 22:27:00479.0478.0480.1479.3477.8478.7480.2481.6481.2480.0479.1Uncorrected22:28:00479.0477.9479.8479.0477.5478.2480.2481.3481.0479.5478.6+1.1+1.1+1.1+1.3+0.9-0.1+1.0+0.5+0.6-0.2-0.2-0.2-0.2-0.2-0.2-0.2-0.2-0.2Corrected Max.Actual 479.9478.9481.1480.4478.5478.8481.0481.9481.6Corrected Min.Actual 462.6458.4467.0465.5462.2468.5460.9469.2466.9Meter channel meter channel No.测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date时间 Time传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction 480℃炉温恒定前温度状态检测记录检测结论 Test conclusionIt is not overshoot before furnace temperature stabilization at 480℃.Test record of temperature satus before hold constart temperature at 480℃报告编号 Report No. XXXXXX各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃第3页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected 22:29:00479.2478.4480.2479.4478.0478.9480.5481.3481.1480.1479.3Uncorrected 22:30:00479.7478.8480.6479.8478.4479.3480.8481.7481.4480.5479.7Uncorrected 22:31:00479.3478.6480.2479.5478.1478.5480.7481.5481.2479.8479.0Uncorrected 22:32:00479.5478.8480.2479.5478.1478.7480.8481.2481.2480.0479.3Uncorrected 22:33:00480.4479.4480.8480.1478.7479.7481.4482.1481.4480.8480.5Uncorrected 22:34:00480.2479.5480.9480.2478.9479.6481.3481.8481.7480.8480.2Uncorrected 22:35:00479.7479.2480.4479.7478.4478.7481.2481.6481.4480.1479.4Uncorrected 22:36:00479.9479.3480.4479.7478.5479.0481.1481.3481.2480.2479.6Uncorrected 22:37:00480.9480.0480.9480.2479.0479.8481.3481.6481.5480.9480.4Uncorrected 22:38:00480.6480.0481.2480.6479.2480.0481.7481.9481.8481.1480.5Uncorrected 22:39:00480.2479.7480.7480.1478.8479.2481.5481.7481.7480.4479.8Uncorrected 22:40:00480.0479.5480.4479.7478.6478.9481.3481.4481.4480.1479.5Uncorrected 22:41:00480.3479.8480.8480.1478.9479.6481.3481.4481.4480.7480.1Uncorrected 22:42:00480.7480.1481.1480.6479.2480.0481.6481.7481.7481.1480.6Uncorrected 22:43:00480.3479.8480.7480.1478.9479.3481.5481.6481.5480.8479.9Uncorrected 22:44:00480.1479.6480.4479.8478.6478.9481.3481.2481.3480.1479.5Uncorrected 22:45:00480.4480.0480.8480.2479.0479.7481.4481.9481.7480.7480.2Uncorrected 22:46:00480.8480.2481.1480.6479.3480.1481.6481.7481.7481.2480.7Uncorrected 22:47:00480.6480.1480.9480.4479.1479.6481.7481.7481.7481.5480.3Uncorrected 22:48:00480.2479.8480.6480.0478.8479.0481.5481.5481.5480.3479.7Uncorrected 22:49:00479.9479.5480.2479.6478.4478.6481.2481.1481.2479.9479.8Uncorrected 22:50:00480.8480.1480.7480.0478.9479.6481.3481.2481.3480.6480.2Uncorrected 22:51:00480.6480.1480.9480.4479.1479.9481.5481.5481.5481.0480.6Uncorrected 22:52:00480.3479.9480.6480.1478.9479.3481.5481.4481.5480.5480.0Uncorrected 22:53:00479.9479.6480.2479.6478.5478.6481.2481.1481.2479.9480.1Uncorrected 22:54:00480.1479.7480.3479.7478.6479.0481.2481.0481.1480.2479.7Uncorrected 22:55:00480.6480.3481.3480.3479.2480.0481.5481.3481.4481.0481.2Uncorrected 22:56:00480.6480.2480.9480.4479.2479.9481.6481.6481.6480.9480.5Uncorrected 22:57:00480.3479.9480.6480.0478.8479.2481.5481.4481.4480.3479.9Uncorrected 22:58:00479.8479.5480.1479.5478.4478.5481.2481.0481.1479.7479.2Uncorrected22:59:00480.0479.6480.2479.5478.5478.9481.1480.8480.9480.1479.6+1.1+1.1+1.1+1.3+0.9-0.1+1.0+0.5+0.6-0.2-0.2-0.2-0.2-0.2-0.2-0.2-0.2-0.2Corrected Max.Actual 481.8481.2482.2481.7480.0479.8482.5482.4482.2Corrected Min.Actual480.1479.3481.0480.5478.7478.2481.3481.1481.32.5-1.8传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction Meter channel meter channel No.测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date时间 Time备注 Remark:Compensation conductor and instrument are calibration together; Controler haven't been adjusted.最大值与设定点之差Difference between max.&value 480℃炉温恒定后温度状态检测记录检测结论 Test conclusion (+2.5,-1.8℃)Furance is calibration at 480℃,the result can meet class 2 (±6℃) requirement. Pass / Fail Test record of temperature satus before hold constart temperature at 480℃报告编号 Report No. XXXXXX各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃最小值与设定点之差Difference between min.&value第4页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected 00:20:00746.8746.2747.9746.1744.8747.1746.5747.3749.0749.3748.0Uncorrected 00:21:00748.7748.2749.8747.9746.6748.9748.1749.3750.9751.1749.8Uncorrected 00:22:00751.7750.9751.9750.0748.6751.0749.9751.2752.9753.4752.1Uncorrected 00:23:00752.7752.2753.6751.7750.4752.6751.7753.0754.6754.9753.6Uncorrected 00:24:00754.3753.9755.2753.3752.0754.1753.2754.4756.0756.4755.0Uncorrected 00:25:00755.8755.4756.7754.9754.0756.2755.4755.8757.4757.9757.2Uncorrected 00:26:00757.1756.9758.0756.1754.9756.7756.1757.0758.6759.2758.2Uncorrected 00:27:00758.2758.0759.1757.4756.5757.2757.1757.8759.8760.0758.7Uncorrected 00:28:00759.1758.9759.3757.5756.4757.7758.0758.2760.3760.8759.5Uncorrected 00:29:00759.4759.4759.3757.4756.6757.6758.5758.2760.3760.9759.6Uncorrected 00:30:00759.9759.8759.5757.6756.8757.7758.9758.4760.5761.1759.8Uncorrected 00:31:00759.8759.8759.2757.3756.6757.4758.9758.0760.3760.9759.7Uncorrected 00:32:00759.9760.0759.1757.3756.6757.3759.0758.0760.1760.9759.8Uncorrected 00:33:00760.0760.1759.1757.2756.6757.3759.0757.8760.1760.9759.7Uncorrected 00:34:00759.8760.0758.9757.0756.5757.3759.0758.3760.7760.8759.6Uncorrected 00:35:00759.8759.9758.7756.9756.4757.1758.9757.6759.8760.7759.6Uncorrected 00:36:00759.8759.9758.6756.7756.3757.0758.8757.4759.7761.3759.5Uncorrected00:37:00759.7759.8758.5756.6756.1756.9758.6757.3759.6760.5759.4+1.3+1.5+1.5+1.7+1.2+0.3+1.1+0.4+0.5-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1Corrected Max.Actual 761.2761.5760.9759.2757.9757.9760.0758.7761.1Corrected Min.Actual 748.0747.6749.3747.7745.9747.3747.5747.6749.4Meter channel meter channel No.测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date时间 Time760℃炉温恒定前温度状态检测记录检测结论 Test conclusionIt is not overshoot before furnace temperature stabilization at 760℃Test record of temperature satus before hold constart temperature at 760℃报告编号 Report No. XXXXXX各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction第5页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected 00:38:00759.7759.8758.5756.6756.2757.0758.6757.3759.6760.5759.5Uncorrected 00:39:00759.7759.8758.4756.5756.1757.0758.6757.3759.6760.5759.5Uncorrected 00:40:00759.7759.8758.4756.5756.1756.9758.6757.3759.6760.5759.5Uncorrected 00:41:00759.7759.7758.3756.4756.0756.9758.6757.2759.6760.4759.5Uncorrected 00:42:00759.7759.8758.3756.5756.1756.9758.6757.2759.6760.5759.6Uncorrected 00:43:00759.7759.8758.5756.6756.2757.0758.7757.3759.7760.6759.6Uncorrected 00:44:00760.5760.4758.7756.6756.3757.2758.8757.5759.9760.8759.6Uncorrected 00:45:00760.0760.0758.6756.6756.3757.2758.8757.5759.9760.8759.7Uncorrected 00:46:00759.9760.0758.6756.6756.3757.2758.9757.5759.9760.8759.7Uncorrected 00:47:00759.9760.1758.6756.6756.3757.3758.8757.4759.9760.8759.8Uncorrected 00:48:00759.8760.0758.5756.5756.2757.0758.7757.3759.8760.7759.6Uncorrected 00:49:00759.8760.0758.5756.5756.2757.0758.7757.3759.8760.7759.9Uncorrected 00:50:00759.8760.0758.5756.5756.2757.1758.7757.2759.7760.7759.8Uncorrected 00:51:00760.5760.7759.1757.0756.5757.0758.6757.0759.6760.5759.6Uncorrected 00:52:00759.8759.9758.3756.4756.1757.0758.6757.1759.6760.5759.4Uncorrected 00:53:00759.9760.0758.4756.5756.2757.1758.6757.1759.7760.7759.6Uncorrected 00:54:00760.0760.0758.5756.8756.3757.9759.4757.9760.3760.8759.7Uncorrected 00:55:00760.0760.0758.5756.5756.2757.2758.6757.2759.8760.8759.6Uncorrected 00:56:00760.8760.6759.3757.3756.9757.6758.8757.3759.9760.8759.8Uncorrected 00:57:00760.2760.2758.6756.6756.4757.3758.7757.3759.9760.9759.8Uncorrected 00:58:00760.1760.2758.6756.6756.4757.2758.7757.2759.8760.8759.7Uncorrected 00:59:00760.2760.3758.7756.7756.5757.4758.8757.3759.9761.1759.8Uncorrected 01:00:00760.1760.3758.6756.6756.4757.4758.8757.2759.8760.9759.8Uncorrected 01:01:00760.1760.2758.6756.6757.0757.7759.0757.2759.8760.8759.6Uncorrected 01:02:00760.1760.3758.7756.6756.4757.4758.7757.3759.8760.9759.8Uncorrected 01:03:00760.2760.3758.7756.6756.5757.4758.8757.3759.8761.6759.8Uncorrected 01:04:00760.1760.3758.7756.6756.4757.3758.8758.0760.3760.9759.8Uncorrected 01:05:00760.2760.3758.7756.6756.4757.4758.8757.3759.8760.9759.8Uncorrected 01:06:00760.1760.3758.6756.6756.4757.3758.7757.2759.7760.8759.8Uncorrected 01:07:00760.2760.3758.7756.6756.4757.4758.7757.2759.8760.9759.9Uncorrected01:08:00760.2760.3758.7756.6756.4757.4758.8757.3759.8761.5759.8+1.3+1.5+1.5+1.7+1.2+0.3+1.1+0.4+0.5-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1Corrected Max.Actual 762.0762.1760.7758.9758.1758.1760.4758.3760.7Corrected Min.Actual760.9761.1759.7758.0757.1757.1759.6757.3760.02.1-2.9传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction 备注 Remark:Compensation conductor and instrument are calibration together; Controler haven't been adjusted.最大值与设定点之差Difference between max.&value 最小值与设定点之差Difference between min.&value760℃炉温恒定后温度状态检测记录检测结论 Test conclusion (+2.1,-2.9℃)Furance is calibration at 760℃,the result can meet class 2 (±6℃) requirement. Pass / Fail Test record of temperature satus before hold constart temperature at 760℃报告编号 Report No. XXXXXX各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃Meter channel meter channel No.测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date时间 Time第6页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected 01:46:00868.6867.3872.4869.9868.0873.1870.8874.9874.7873.0871.6Uncorrected 01:47:00874.6873.4878.4875.9874.0879.1876.9880.9880.7878.9877.5Uncorrected 01:48:00877.7876.8880.5877.2877.1880.2879.5882.3882.4880.6879.5Uncorrected 01:49:00880.5880.3883.8880.9880.1881.6884.8885.6884.5882.7881.1Uncorrected 01:50:00883.3882.9886.2883.3882.7884.7885.7885.7885.9885.8884.4Uncorrected 01:51:00885.4885.6888.2885.1884.6886.8886.5886.5887.1887.9887.2Uncorrected 01:52:00887.4887.1889.8887.0886.5888.7887.9888.2888.8889.9888.5Uncorrected 01:53:00889.7889.4892.0889.1888.6890.9889.6890.1890.9892.2890.8Uncorrected 01:54:00891.6891.4893.9890.9890.6892.7891.4892.0892.7894.0892.5Uncorrected 01:55:00893.3893.1895.5892.6892.2894.3893.0893.4894.2895.6894.3Uncorrected 01:56:00894.7894.6896.9894.1893.7895.7894.4894.7895.2896.8895.4Uncorrected 01:57:00895.8895.7898.2895.2895.0896.8895.6895.9896.3897.8896.5Uncorrected 01:58:00896.7896.6899.0896.0895.9897.4896.5896.6896.9898.5897.2Uncorrected 01:59:00897.2897.2899.4896.4896.4897.8897.1896.9897.3898.9897.6Uncorrected 02:00:00898.4898.2900.5897.5897.4898.5897.6897.1897.6899.3898.1Uncorrected 02:01:00897.9897.9899.8896.8896.9898.2897.7897.0897.6899.4898.1Uncorrected02:02:00898.1898.2899.8896.9897.0898.2897.9897.0897.8899.6898.3+1.5+1.8+1.9+2.1+1.5+0.6+1.3+0.4+0.6-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1Corrected Max.Actual 899.8899.9902.3899.5898.8899.0899.1897.4898.3Corrected Min.Actual 870.0869.0874.2871.9869.4873.6872.0875.2875.2Meter channel meter channel No.测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date时间 Time传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction 899℃炉温恒定前温度状态检测记录检测结论 Test conclusionIt is not overshoot before furnace temperature stabilization at 899℃Test record of temperature satus before hold constart temperature报告编号 Report No. XXXXXX各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃第7页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected 02:03:00898.3898.4899.9896.9897.2898.2897.9897.1897.9899.7898.4Uncorrected 02:04:00898.2898.4899.5896.6896.9897.9897.8896.7897.6899.5898.2Uncorrected 02:05:00898.9898.6900.1897.3897.6898.5898.0896.8897.4899.5898.2Uncorrected 02:06:00898.2898.4899.6896.7896.9898.1897.8896.7897.5899.5898.3Uncorrected 02:07:00898.4898.5899.8896.8897.0898.2897.9896.9897.6899.7898.4Uncorrected 02:08:00898.2898.4899.5896.6897.0898.3898.4896.7897.5899.5898.9Uncorrected 02:09:00898.0898.3899.4896.4896.8897.9897.7896.6897.4899.4898.1Uncorrected 02:10:00898.0898.3899.4896.4896.7897.9897.6896.5897.4899.3898.8Uncorrected 02:11:00898.1898.3899.5896.5896.8898.0897.6896.6897.4899.5898.2Uncorrected 02:12:00898.0898.3899.4896.3896.7897.8897.6896.6897.4900.1898.0Uncorrected 02:13:00898.0898.4899.5896.8896.8898.8898.4897.4897.9899.4898.7Uncorrected 02:14:00898.0898.3899.4896.3896.7897.9897.6896.6897.4899.3898.1Uncorrected 02:15:00898.0898.3899.4896.3896.7897.9897.6896.5897.4899.3898.1Uncorrected 02:16:00897.9898.3900.1896.8896.9897.9897.6896.6897.7899.3898.0Uncorrected 02:17:00898.0898.4899.5896.4896.8898.0897.6896.7897.4899.4898.0Uncorrected 02:18:00898.0898.3899.4896.3896.7897.8897.6896.6897.4900.0898.0Uncorrected 02:19:00897.9898.3899.4896.3896.7897.9897.6896.5897.3899.3897.9Uncorrected 02:20:00898.0898.3899.4896.3896.7897.9897.5896.4897.3899.3898.1Uncorrected 02:21:00898.0898.2899.3896.3896.7897.9897.5896.4897.2899.8898.0Uncorrected 02:22:00897.9898.1899.3896.5896.6898.5898.2897.2897.7899.1897.9Uncorrected 02:23:00897.9898.0899.2896.1896.5897.7897.4896.3897.1899.0897.9Uncorrected 02:24:00897.9898.0899.1896.1896.5897.7897.4896.3897.1899.0897.7Uncorrected 02:25:00897.9898.1899.3896.3896.6897.9897.4896.4897.2899.8897.9Uncorrected 02:26:00897.9898.0899.2896.1896.5897.8897.4896.3897.1899.0897.8Uncorrected 02:27:00897.9898.0899.2896.2896.6897.7897.4896.3897.1899.0897.8Uncorrected 02:28:00898.0898.1899.3896.3896.7897.9897.5896.4897.3899.7897.9Uncorrected 02:29:00897.9898.1899.3896.2896.7897.9897.5896.3897.2899.1897.9Uncorrected 02:30:00897.9898.0899.2896.1896.5897.8897.4896.3897.1899.0897.8Uncorrected 02:31:00898.0898.2899.4896.3896.7898.0897.6896.5897.4899.3898.1Uncorrected 02:32:00897.9898.1899.3896.2896.7897.8897.5896.4897.2899.1897.9Uncorrected02:33:00898.0898.2899.3896.3896.7897.9897.6896.5897.3899.9897.9+1.5+1.8+1.9+2.1+1.5+0.6+1.3+0.4+0.6-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1Corrected Max.Actual 900.3900.3901.9899.3899.0899.3899.6897.7898.4Corrected Min.Actual899.3899.7900.9898.1897.9898.2898.6896.6897.62.9-2.4899℃炉温恒定后温度状态检测记录检测结论 Test conclusion (+2.9,-2.4℃)Furance is calibration at 899℃,the result can meet class 4 (±10℃) requirement. Pass / Fail Test record of temperature satus before hold constart temperature报告编号 Report No. XXXXXX各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction Meter channel meter channel No.测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date时间 Time备注 Remark:Compensation conductor and instrument are calibration together; Controler haven't been adjusted.最大值与设定点之差Difference between max.&value 最小值与设定点之差Difference between min.&value第8页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected03:40:001164.71165.21163.71159.31161.11163.31162.41159.41162.41166.51164.4Uncorrected03:41:001166.81167.21166.31161.61163.01165.11164.11161.51165.11169.21167.2Uncorrected03:42:001170.11170.41169.11164.11165.41167.51166.61163.91167.71171.71169.5Uncorrected03:43:001171.51172.01170.81166.11167.51169.61168.81166.01169.81173.71171.7Uncorrected03:44:001174.01174.01172.81167.91169.51171.71171.31168.51171.61175.61173.6Uncorrected03:45:001175.01175.61174.91170.21171.81173.01172.51169.61173.71177.11175.1Uncorrected03:46:001176.01176.51175.31170.51172.11173.81173.51170.11173.91178.01176.0Uncorrected03:47:001177.01177.51176.31171.41173.21174.81174.51171.01174.81179.71177.0Uncorrected03:48:001178.11178.61177.21172.31174.11175.81175.51172.51176.51179.91178.0Uncorrected03:49:001179.01179.51178.11173.31175.11176.91176.51172.91176.81180.91179.0Uncorrected03:50:001179.81180.31178.91174.11175.91177.51177.31173.71177.51181.61179.7Uncorrected03:51:001180.31180.81179.41174.61176.41178.11178.01174.11178.01182.01180.2Uncorrected03:52:001180.81181.21179.81174.91176.81178.41178.31174.41178.31183.11180.6Uncorrected03:53:001181.11181.61180.21175.41177.31178.81178.71174.81178.71182.71180.9Uncorrected03:54:001181.21181.61180.31175.41177.31179.01178.91175.01178.71182.71180.9Uncorrected03:55:001181.21181.71180.41175.61177.51179.01179.01175.01178.81182.81181.0Uncorrected03:56:001181.31181.81180.61175.71177.61179.21179.11175.11178.91182.91181.2Uncorrected03:57:001182.31182.61181.21175.91177.81179.41179.31175.41179.01183.11181.4Uncorrected03:58:001181.51182.01180.81175.91177.81179.31179.31175.41179.11183.01181.3Uncorrected03:59:001181.31181.81180.61175.71177.61179.21179.21175.11178.81182.81181.2Uncorrected04:00:001181.41181.91180.61175.81177.61179.31179.31175.21179.01182.91181.8+2.0+4.7+4.7+3.0+2.5+1.3+1.9+0.4+2.4-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1Corrected Max.Actual 1184.21187.21185.81178.81180.21180.61181.11175.71181.4Corrected Min.Actual1166.61169.81168.31162.21163.51164.51164.21159.71164.7Meter channel meter channel No.测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date 时间 Time1180℃炉温恒定前温度状态检测记录检测结论 Test conclusionIt is not overshoot before furnace temperature stabilization at 1180℃Test record of temperature satus before hold constart temperature报告编号 Report No. XXXXXX各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction第9页 共9页12345678910111169A-11169A-21169A-31169A-41169A-51169A-61169A-71169A-81169A-90660-30660-42017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.3.182017.2.82017.2.8Uncorrected 04:01:001181.51181.91180.81175.91177.81179.41179.31175.31179.01183.01181.3Uncorrected 04:02:001181.51181.91180.81175.91177.81179.31179.31175.31179.01183.01181.3Uncorrected 04:03:001181.41181.71180.61175.71177.71179.51179.81175.01178.81182.91181.2Uncorrected 04:04:001181.31181.61180.51175.71177.51179.01179.21175.01178.71182.71180.9Uncorrected 04:05:001181.31181.51180.41175.61177.51179.01179.11174.91178.71182.71180.9Uncorrected 04:06:001181.31181.61180.51175.71177.51179.11179.11175.01178.81182.81181.1Uncorrected 04:07:001181.21181.41180.41175.71177.41179.01179.11174.91178.61182.71180.9Uncorrected 04:08:001181.21181.41180.41175.61177.51179.11179.01174.91178.71183.31181.0Uncorrected 04:09:001181.21181.41180.41175.71177.41179.11179.01175.01178.71182.81180.9Uncorrected 04:10:001181.01181.31180.21175.51177.31178.81178.91174.81178.61182.61180.8Uncorrected 04:11:001181.11181.31180.31175.61177.31179.01178.91174.81178.61182.61180.9Uncorrected 04:12:001180.91181.21180.21175.41177.31178.81178.91174.71178.51182.51180.7Uncorrected 04:13:001181.01181.11180.21175.41177.31178.81178.81174.81178.61182.51180.8Uncorrected 04:14:001181.21181.21180.31175.61177.31178.91178.91174.81178.61182.61180.9Uncorrected 04:15:001181.21181.31180.31175.71177.41178.91179.01174.91178.71182.61180.8Uncorrected 04:16:001180.91181.01180.11175.41177.21178.71178.81174.71178.51182.41180.6Uncorrected 04:17:001180.91181.11180.21175.51177.31178.91178.81174.81178.61182.41180.6Uncorrected 04:18:001181.01181.11180.21175.61177.31178.91178.81174.81178.61182.41180.8Uncorrected 04:19:001181.81181.81180.21175.61177.31178.81178.81174.81178.61182.41180.8Uncorrected 04:20:001180.91180.91180.11175.41177.21178.71178.71174.71178.51182.31180.6Uncorrected 04:21:001180.81180.91180.01175.41177.01178.61178.61174.51178.31182.31180.6Uncorrected 04:22:001180.91180.91180.11175.41177.21178.71178.71174.71178.51182.31180.9Uncorrected 04:23:001181.71181.41180.81176.31177.91179.21178.91174.81178.61182.41180.7Uncorrected 04:24:001181.21181.21180.31175.81177.51179.11179.01175.01178.81182.61180.9Uncorrected 04:25:001181.11181.21180.81175.91177.51179.71179.81175.71179.21182.51180.8Uncorrected 04:26:001181.21181.21180.31175.71177.41179.01179.01174.91178.61182.51180.8Uncorrected 04:27:001181.21181.31180.31175.81177.51179.01179.01175.01178.81182.61180.8Uncorrected 04:28:001181.31181.31180.51175.91177.61179.21179.11175.11178.91182.71180.8Uncorrected 04:29:001181.11181.21180.31175.71177.41179.01179.01174.91178.61182.51180.8Uncorrected 04:30:001181.11181.21180.31175.71177.41179.01179.01174.91178.71182.41180.8+2.0+4.7+4.7+3.0+2.5+1.3+1.9+0.4+2.4-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1-0.1Corrected Max.Actual 1183.71186.51185.41179.21180.31180.91181.61176.01181.5Corrected Min.Actual1182.71185.51184.61178.31179.41179.81180.41174.81180.66.5-5.2最小值与设定点之差Difference between min.&value 备注 Remark:Compensation conductor and instrument are calibration together; Controler haven't been adjusted.各通道传感器测量值(原始读数) Measure value of each sensor(Initial data) 单位: ℃最大值与设定点之差Difference between max.&value检测结论 Test conclusion (+6.5,-5.2℃)Furance is calibration at 1180℃,the result can meet class 4 (±10℃) requirement. Pass / Fail传感器修正值 ℃Sensor correction 测试仪表修正值 ℃Meter correction时间 Time测试传感器编号Testing sensor No.传感器校准日期Sensor's cal.date 1180℃炉温恒定后温度状态检测记录Test record of temperature satus before hold constart temperature报告编号 Report No. XXXXXXMeter channel meter channel No.。

温度均匀性测试报告
1．测试依据
AMS 2750D —高温测量
GB/T 9452-2012 —热处理炉有效加热区测定方法
2．测试热电偶分布
温度均匀性测试采用九点测量法（图2.1）。

图2.1
3．温度均匀性数据采集
数据采集应在所有设备或TUS传感器达到测试温度下限后开始。

炉子应保持在测试温度直到所有测试
4．合格性判定
温度均匀性测试合格判定依据：
1、温度均匀性测试期间，TUS传感器、控制或检测传感器读数不超过设定温度的温度容差。

2、全部热电偶到温度稳定后的保温期间，TUS传感器、控制或检测传感器读数都在要求的温度容差内。

3、温度均匀性测试在规定的周期时间内进行。

温度均匀性测试报告
设备名称设备编号设备类别
测试地点测试开始时间测试结束时间
热电偶编号测试日期测温方式九点法测试温度点稳定后最高温度稳定后最低温度偏差范围/℃
~
~ 结论
有效加热区图示：
检测人日期
审核人日期。

摘要：介绍了冻干机搁板温度均匀性验证的实施步骤、方法及注意事项，针对影响搁板温度均匀性的各种因素展开了分析，对今后冻干机设备验证、选型及验证管理工作有良好的借鉴意义。

关键词：冻干机；搁板温度；均匀性；验证0 引言冻干机设备在各项指标验证过程中，搁板温度的均匀性是一项重要的验证内容。

产品局部工艺条件的潜在差异可能与被干燥物放置在冻干机内不同的位置有关。

搁板若存在温度分布不均匀现象，产品在冻结处理的过程中就很可能出现冻结率不均一的现象，导致产品部分没有实现完全冻结，从而导致产品在干燥时也出现不均一的现象，甚至造成部分产品的温度超过了共融温度，导致冻干处理失败。

由此可见，在产品冻干处理过程中，必须充分保证同一个搁板不同点之间的温度保持一致，且还要保证不同搁板各个点之间的温度保持均匀。

1 冻干验证试验设备本次研究主要针对Lyo-20型冻干机进行验证。

该冻干机设置的搁板数量为11+1，搁板尺寸为1200mm×1490mm×16mm，搁板总面积为20.45m2，搁板间距为100mm，主要使用AISI316L不锈钢制作而成。

该冻干机制冷系统包括两台22 kW的MYCOM螺杆式制冷压缩机、SWEP的板式换热器和硅油循环系统。

制冷剂为R404A，硅油采用Dow Corning 200（R）Fluid，50 CST.。

硅油循环泵采用GRUNDFOS双头屏蔽泵，加热器采用42 kW的电加热器。

加热方式为不锈钢U型管浸入式加热，固态继电器采用比例控制方式，制冷方式采用制冷剂与硅油在板式换热器中进行热交换的方式。

在该冻干机搁板温度均匀性验证过程中，主要应用Kaye温度验证仪（整体系统不确定性为0.078℃，k=1）。

在测试前，需先完成测温用Kaye测试探头的前校准工作，按被验证设备冻干机搁板温度均匀性精度要求允差≤±1.0℃，测温探头通常情况下仪器允差应≤±0.33℃或±0.2℃。

GMP库房温湿度均匀性验证方案GMP（Good Manufacturing Practice，良好生产规范）是一套制定在制药行业用于确保产品质量和安全性的国际标准。

库房温湿度的均匀性对于有效保护药品的质量和稳定性至关重要。

以下是一个关于GMP库房温湿度均匀性验证方案的详细说明。

一、目的：本方案旨在验证GMP库房温湿度均匀性，确保库房内的温湿度分布均匀，以满足药品质量和稳定性的要求。

二、设备与材料：1.温湿度监测仪：确保精确测量温湿度，具备合适的测量范围和准确性。

2.数据记录系统：用于记录和分析温湿度数据。

3.校准设备：确保温湿度监测仪的准确性和可靠性。

三、方法与步骤：1.选择合适的测试时期：测试时期应是库房内药物储存量最大的时期，以确保温湿度均匀性验证的实际有效性。

2.将温湿度监测仪放置于库房内不同位置：在库房内选择各种不同位置安装温湿度监测仪，包括靠近入口、靠近出口、靠近墙壁等位置。

3.运行验证测试：根据预定的时间表和设置的条件运行测试，监测并记录在不同位置的温湿度值。

4.数据分析与统计：通过数据记录系统对测试过程中得到的温湿度数据进行分析与统计，包括计算平均值、标准差等。

5.制定修正措施：根据数据分析结果，制定并实施必要的修正措施，以确保库房内的温湿度分布均匀。

6.重复测试：根据修正措施的实施情况，重复测试以验证温湿度均匀性是否得到改进。

四、报告与记录：1.温湿度监测记录：记录每次测试的温湿度数据，包括测试时间、位置、温湿度数值等。

2.统计分析结果：根据数据分析得到的结果，制作分析报告，包括温湿度分布图表、均值、标准差等。

3.修正措施记录：记录制定并实施的修正措施，包括修正方法、实施时间和结果等。

4.验证结果报告：根据最后一次测试的数据和分析结果，制作并提交温湿度均匀性验证结果报告。

五、质量控制措施：1.校准：保证温湿度监测仪的准确性和可靠性，定期进行校准。

2.定期验证：每年进行一次库房温湿度均匀性验证，以确保持续符合要求。

热处理炉均匀性测试规范（ISO9001-2015）1、目的：生产中使用的热处理炉TUS(温度均匀性)和使用仪表及热电偶满足公司生产需要以及符合客户需求特制定本作业指导书。

2、范围：本作业指导书适用于公司热处理炉产品所使用的热处理炉温度均匀性测试。

3、职责4.1 公司热处理工程师根据客户要求负责热处理工艺编制和最终确认。

4.2 技术部与生产部门按照产品热处理工艺选择需要的热处理设备，设备的仪表类型也必须经过国家法定检定机构校检并符合客户要求。

4.3由公司热处理工程师主持相关技术人员对热处理炉进行TUS测试。

4、热处理温度均匀性热处理炉内工作区温度达到稳定化后相对于设定点温度的变化，工作区内任两点的温度偏差不应超过热处理工艺对温均匀性的要求（一般情况下用于正火的热处理炉温度均匀性：±14℃，回火热处理炉温度均匀性±8℃）。

热处理炉等级与温度均匀性范围要求：Temperature Uniformity1±32±63±84±105±146±285、温度均匀性测试（TUS）进行TUS时，如果客户没有特别指出热处理炉的装载状态，一般情况下在满载情况下进行测试，装载的产品必须是依据公司工艺文件进行热处理的产品。

当下一次进行TUS时也必须是和前一次测试时的装载状态且产品与上一次相同。

5.1 温度均匀性测试的设备：序号设备名称生产厂家型号精度/等级/不确定度0.02%1 多功能热工校验仪2 数字式记录仪0.1%3 K型铠装热电偶WRNK-196A 1级4 数字式温湿度表福禄克FLUKE 971 U=1.4%RH (k=2)。

温度验证报告
报告目的：
本报告旨在验证温度计的准确性，确保在使用过程中能够提供精确且可靠的温度测量数据。

报告描述：
本次温度验证测试在2021年6月15日于实验室内进行，采用标准校准温度计、湿度计和快速响应温度计，对被测温度计进行验证。

测试过程：
测试期间，被测温度计置于标准温度仪器中，并与标准校准温度计、快速响应温度计和湿度计同时读数。

测试过程中，温度计处于稳定状态，每个温度数据记录3次，取其平均值。

测试环境：
实验室内平均温度为22.5℃，湿度为45%。

被测温度计应在此环境下进行温度校准。

此外，测试过程中实验室内设置了温控装置，确保温度波动范围在±0.5℃。

测试结果：
本次测试结果显示，被测温度计测量值与标准校准温度计、快速响应温度计和湿度计的测量值误差均在±0.5℃以内，符合使用标准要求。

结论：
本次测试证明被测温度计的准确性良好。

建议在正式使用前，进行周期性的校准，以确保其始终在准确状态。

测试烧结炉均匀报告
烧结炉是冶金行业中常用的设备，用于将颗粒状原料烧结成块状物料。

在烧结过程中，确保炉内温度的均匀性对于生产效率和产品质量至关重要。

因此，测试烧结炉的均匀性是必不可少的步骤。

为了确保烧结炉的均匀性，需要进行定期的测试和检查。

首先，需要对烧结炉的温度分布进行测试。

可以在炉内不同位置放置温度计，然后记录下各个位置的温度数据。

通过分析这些数据，可以判断烧结炉内的温度分布是否均匀。

如果发现某些区域温度过高或过低，就需要调整烧结炉的操作参数，以确保温度分布的均匀性。

除了温度分布，还需要测试烧结炉内气氛的均匀性。

烧结炉内的气氛对于烧结过程也起着至关重要的作用。

可以通过在炉内不同位置放置气气体分析仪器，来测试炉内气氛的均匀性。

如果发现气氛不均匀，就需要调整烧结炉的通风系统，以确保气氛的均匀性。

还需要测试烧结炉内物料的流动性。

烧结炉内的物料流动性对于烧结过程也有重要影响。

可以通过在炉内不同位置放置物料采样器，来测试炉内物料的流动性。

如果发现某些区域的物料流动性较差，就需要调整烧结炉的结构或操作参数，以确保物料的均匀流动。

测试烧结炉的均匀性是确保生产效率和产品质量的关键步骤。

通过对烧结炉的温度分布、气氛和物料流动性进行测试，可以及时发现问题并采取措施加以解决。

只有确保烧结炉的均匀性，才能保证生
产过程的稳定性和产品的质量。

2018.15瀾试工具与解决方案恒温油槽温度均匀性测试结果的不确定度评定报告兰胜川(西南铝业(集团)有限责任公司动力计控中心，重庆，4〇1326)摘要：本文主要根据JJF1059. 1-2012《测量不确定度评定与表示》，介绍使用标准钻电阻温度计与堆栈式测温仪组成的 测量系统对恒温油槽进行温度均匀性测试的过程中，通过对A、B两类测量不确定度来源的分析，分别计算出测量结果 的各个标准不确定度分量，并将各各标准不确定度分量合成，得出均匀性测试结果的扩展不确定度。

关键词：恒温油槽；温度均匀性；不确定度评定Evaluation report on uncertainty of temperature uniformity test ofconstant temperature oil bathLan Shengchuan(Power meter control center of Southwest Aluminum(Group)Co.,Ltd.,Chongqing,401326) Abstract:According to JJF1059.1-2012 Evaluation and Expression of Measurement Uncertainty,this paper mainly introduces the measurement system composed of standard platinum resistance thermometer and stack thermometer to test the temperature uniformity of constant temperature oil tank,and calculates the measurement results respectively by analyzing the sources of measurement uncertainty A and B.Each standard uncertainty component is synthesized and the extended uncertainty of the uniformity test result is obtained.K e y w o r d s:constant temperature oil tank;temperature uniformity;uncertainty evaluation1概述(1) 测量依据：JJF1030-2010《恒温槽技术性能测试规范》(2) 测量标准：标准怕电阻温度计计量标准器及主要配套设备名称型号测量范围不确定度或准确 度等级或最大允许误差计量标准器标准铂电阻温度计WZPB-1(-200 〜661)二等主要配套设备堆栈式测温仪15602562模块(0 〜25) Q(25〜400) n0.0010读数的40ppm(3)被测对象：恒温油彳*(4)测量方法：选用两支二等标准铀电阻温度计,配接堆 栈式测温仪1560进行测量。