需求 & 采集過程溫度
Demand & Coverage of Process-Temperature
通過使用溫度傳感器裝置TSE,溫度值?T作為外加評估因素為扭矩數據
作補充
With the integration of the TSE Temperature-Sensor-Equipment the temperature value ?T is added as an additional evaluation factor, to the various values of torque.
面向實際的功效評估
Practice Oriented Efficiency Rating
作為摩擦學過程*的可視化,TTT系統輸出下列由被采集的扭矩變化分布
得出的值:
1. 扭矩(Mz 單位 Ncm)作為消耗掉的功率值
2. 平均值(Mz Mean)作為消耗掉的平均功率(算術平均值)
3. 標準偏差(Std. Dev.)作為扭矩相對平均值的平均偏差值(分布、同步&
均勻性)
4. 高斯分布/作為歷史記錄,概率分布作為產生的扭矩及其分布的圖形表
達(概率統計)
5. 積分(INT)作為測試刀具上的總負荷值(負載)
溫度傳感器裝置 TSE輸出起始及結束溫度用以計算?T。
6. Delta T (?T)作為表達摩擦學過程*的熱值
The TTT Tapping-Torque-Testsystem determines the following
values of the torque progression for visualisation of tribological inven
1. Torque (Mz in Ncm) as a value
for the factually generated work performance
2. Mean Value (Mz Mean) as a value for the generated work
performance in average (arithmetic mean)
3. Standard Deviation (Std.Dev.) as a value for the mean
deviation of torque around the Mean Value (distribution,
synchronisation &homogeneity)
4. Gaussian-Distribution / Frequency Distribution as a
graphic depiction of the torque values occurred and their
distribution as a histogram (Statistics)
5. Integral (INT) as a value for the total work load (stress)
on the measurement tool
The Temperature-Sensor-Equipment TSE determines the
starting- and the end-temperature for computing ?T.
6. Delta T (?T) as a value for the thermal influence in the
process with water, additives, coatings etc. for the interpretation
of tribological mechanisms
TTT 法& 標準
TTT Methods & Standards
通過運用不同的TTT法(測試組生成)和特定的TTT標準(材料** &參
數),來得出調整過的、可比較的及可重復的結果。為此而開發的-按任
務要求一認真執行的TTT法及制定的TTT標準,能使得得出的結果在內部
及在一個試驗組內部相互進行比較。一種材料結構的每一塊測試組測試板
可以在一次裝夾中得到140個準確的測試結果。
In adaption of different TTT Methods (creation of series of measurements) and specified TTT Standards (material** & parameters),
controlled, comparable and repeatable results
are realised. The therefore developed TTT Methods and fixed
TTT Standards consequently applied – according to task –, submit to compare the determined results internally and in different laboratory groups. Each testbar (of one and the same material) submits 140 faultless measurement results
with one installation only.
