Table of Contents
What is a bimetallic stemmed thermometer?
Benefits of bimetallic stemmed thermometer
What is essentially the most correct way to calibrate a bimetal thermometer?
Method 1: Ice and water
Method 2: Boiling Water
Bimetallic stem thermometer functions
Temperature range of a bimetallic stemmed thermometer
What is a bimetallic stemmed thermometer?
Bimetallic stemmed thermometer is an instrument that makes use of two totally different metals to measure temperature. Two metals with different coefficients of linear growth are mixed and fixed at one finish. When the temperature changes, the two metals have different degrees of thermal enlargement. A pointer is driven to deflect to indicate the temperature. This is the bimetal thermometer. Usually, the layer of the bimetal with a small coefficient of enlargement known as the passive layer, and the layer with a large coefficient of enlargement is known as the active layer. It can instantly measure the temperature of liquid, steam and gas media within the range of -80℃~+500℃ in numerous manufacturing processes.
Benefits of bimetallic stemmed thermometer
The thermal potential just isn’t interfered with. The thermal potential of the bimetal stemmed thermometer isn’t disturbed by different factors. It is highly adaptable to completely different measurement environments.
Diverse construction, can meet completely different measurement requirements. Can be used as electrical contact bimetal thermometer, explosion-proof electrical contact bimetal thermometer, distant transmission bimetal thermometer, and so forth.
Fast temperature response and high sensitivity. At the identical time, the temperature change is intuitive and may be displayed and recorded on website.
Small size, straightforward to use, and strong reliability of temperature measurement. Dial nominal diameter: 60,a hundred (4 inches), one hundred fifty elective.
Long service life, can be utilized for long-term temperature detection in chemical manufacturing, steady bodily and chemical properties.
Stable anti-corrosion efficiency. Bimetal thermometers in chemical production usually must be used in liquid and gasoline environments. Has good corrosion resistance to protect the pipeline. Will not be affected by the measurement situations and will not produce corrosion problems that have an effect on the quality of measurement.
High pressure-bearing capability. Has good pressure-bearing capacity, could be measured underneath different pressure ranges, and is extremely adaptable to the measurement circumstances.
High electrical conductivity. Small resistance temperature coefficient, linear relationship between thermal potential and temperature, good linearity.
What is essentially the most accurate way to calibrate a bimetal thermometer?
Method 1: Ice and water
Fill a container with ice cubes, then add chilly distilled water and let it sit for 4 to 5 minutes to kind a watery slurry.
Insert the thermometer probe into the container, ensuring to not touch the facet, and let it sit till the dial stops shifting.
If the thermometer is accurate, the temperature must be 32°F (0°C) after 30 seconds. If not, recalibrate the thermometer. Record discrepancies and offset thermometers as needed.
Method 2: Boiling Water
Bring a clear container of distilled water to a boil.
Once the water is boiling, insert the thermometer probe. Again, make sure the probe does not contact the edges or backside of the pot. three.
The temperature must be 212°F (100°C). Record the difference and offset the thermometer as wanted. Please observe that the boiling level of water varies with altitude. Use this useful water boiling point calculator to search out the right temperature on your altitude.
pressure gauge is a field testing instrument used to measure low and medium temperatures. It can instantly measure the temperature of liquid, steam and gas media in the vary of -80℃~500℃ in various production processes.
Electric contact bimetal thermometer is used for temperature control and alarm at production sites.
Directly measure the temperature of liquid, steam and gaseous media within the range of -80℃~500℃ in numerous production processes.
Explosion-proof bimetal thermometer can directly measure the presence of explosives similar to hydrocarbons on the site. Directly measure the temperature of liquid, steam and gaseous media within the range of -80℃~500℃ in numerous manufacturing processes.
Remote bimetal thermometer can instantly learn the site temperature. And the temperature sign could be transmitted to the distant management system.
Temperature vary of a bimetallic stemmed thermometer
Temperature rangeAccuracy classGraduation value ℃Minimum insertion depth Lmin (mm)
-40℃~80℃1.52455560
0℃~50℃1.51110130140
0℃~100℃1.52556570
0℃~150℃1.52404550
0℃~200℃1.55303540
0℃~300℃1.55506060
0℃~400℃1.510405050
0℃~500℃1.510354040
0℃~600℃1.510303535
customizable1****
We all wish to be competent when it comes to #keyword#, still having everything work out is just not a realistic goal to expect by any means. Regardless of what you are attempting to realize, what really matters is that you’re moving in the right course. After reading this, you ought to now know precisely what to do to go after the objectives you would like to attain. Anyone that is truly interested in this topic will like #links# due to the huge amount of information it has on the subject itself.
Table of Contents
What is a bimetallic stemmed thermometer?
Benefits of bimetallic stemmed thermometer
What is essentially the most correct approach to calibrate a bimetal thermometer?
Method 1: Ice and water
Method 2: Boiling Water
Bimetallic stem thermometer applications
Temperature range of a bimetallic stemmed thermometer
What is a bimetallic stemmed thermometer?
Bimetallic stemmed thermometer is an instrument that uses two totally different metals to measure temperature. Two metals with totally different coefficients of linear expansion are combined and stuck at one finish. When the temperature modifications, the 2 metals have completely different degrees of thermal growth. A pointer is driven to deflect to indicate the temperature. This is the bimetal thermometer. Usually, the layer of the bimetal with a small coefficient of expansion is called the passive layer, and the layer with a large coefficient of enlargement is called the energetic layer. It can immediately measure the temperature of liquid, steam and gasoline media in the range of -80℃~+500℃ in varied manufacturing processes.
Benefits of bimetallic stemmed thermometer
The thermal potential is not interfered with. The thermal potential of the bimetal stemmed thermometer just isn’t disturbed by other elements. It is extremely adaptable to different measurement environments.
Diverse structure, can meet completely different measurement requirements. Can be used as electric contact bimetal thermometer, explosion-proof electric contact bimetal thermometer, remote transmission bimetal thermometer, and so forth.
Fast temperature response and high sensitivity. At the identical time, the temperature change is intuitive and could be displayed and recorded on site.
Small size, simple to use, and robust reliability of temperature measurement. Dial nominal diameter: 60,100 (4 inches), one hundred fifty optional.
Long service life, can be used for long-term temperature detection in chemical manufacturing, stable bodily and chemical properties.
Stable anti-corrosion efficiency. Bimetal thermometers in chemical manufacturing often need to be utilized in liquid and fuel environments. Has good corrosion resistance to guard the pipeline. Will not be affected by the measurement situations and received’t produce corrosion issues that affect the quality of measurement.
High pressure-bearing capability. Has good pressure-bearing capability, can be measured under completely different stress ranges, and is extremely adaptable to the measurement circumstances.
High electrical conductivity. Small resistance temperature coefficient, linear relationship between thermal potential and temperature, good linearity.
What is probably the most accurate way to calibrate a bimetal thermometer?
Method 1: Ice and water
Fill a container with ice cubes, then add chilly distilled water and let it sit for four to five minutes to type a watery slurry.
Insert the thermometer probe into the container, ensuring to not touch the side, and let it sit till the dial stops moving.
If the thermometer is accurate, the temperature should be 32°F (0°C) after 30 seconds. If not, recalibrate the thermometer. Record discrepancies and offset thermometers as wanted.
Method 2: Boiling Water
Bring a clean container of distilled water to a boil.
Once the water is boiling, insert the thermometer probe. Again, make certain the probe doesn’t touch the sides or backside of the pot. three.
The temperature must be 212°F (100°C). Record the difference and offset the thermometer as wanted. Please notice that the boiling point of water varies with altitude. Use this useful water boiling level calculator to find the proper temperature on your altitude.
Bimetallic stem thermometer applications
The bimetal thermometer is a field testing instrument used to measure low and medium temperatures. It can instantly measure the temperature of liquid, steam and fuel media within the range of -80℃~500℃ in numerous production processes.
Electric contact bimetal thermometer is used for temperature management and alarm at manufacturing sites.
Directly measure the temperature of liquid, steam and gaseous media within the range of -80℃~500℃ in varied manufacturing processes.
Explosion-proof bimetal thermometer can directly measure the presence of explosives similar to hydrocarbons at the website. Directly measure the temperature of liquid, steam and gaseous media in the range of -80℃~500℃ in numerous production processes.
Remote bimetal thermometer can directly learn the positioning temperature. And the temperature signal may be transmitted to the distant management system.
Temperature range of a bimetallic stemmed thermometer
Temperature rangeAccuracy classGraduation worth ℃Minimum insertion depth Lmin (mm)
-40℃~80℃1.52455560
0℃~50℃1.51110130140
0℃~100℃1.52556570
0℃~150℃1.52404550
0℃~200℃1.55303540
0℃~300℃1.55506060
0℃~400℃1.510405050
0℃~500℃1.510354040
0℃~600℃1.510303535
customizable1****
โซล่าเซลล์คุณภาพดี: เพื่อการใช้ประโยชน์จากพลังงานที่มีคุณภาพสูง
1. โซล่าเซลล์คุณภาพดี: เป็นอะไรและทำไมคุณต้องใช้? 1.1 โซล่าเซลล์คืออะไร? โซล่าเซลล์คือเทคโนโลยีที่ใช้แผงโซล่าเซลล์ในการแปลงพลังงานจากแสงอาทิตย์เป็นไฟฟ้าได้ โดยมีหน้าที่ส่วนหน้าของแผงโซล่าเซลล์ (solar panel) ที่ถูกออกแบบมาเพื่อรับแสงอาทิตย์และแปรส่วนที่ได้รับมาเป็นไฟฟ้า 1.2 การใช้โซล่าเซลล์มีประโยชน์อย่างไร? การใช้โซล่าเซลล์มีประโยชน์อย่างมากมาย ไม่เพียงแต่จะช่วยลดต้นทุนในการใช้ไฟฟ้าและอนุรักษ์พลังงาน แต่ยังช่วยลดการปล่อยก๊าซเรือนกระจก (greenhouse gas) ที่เป็นสาเหตุของการเปลี่ยนแปลงสภาพภูมิอากาศ นอกจากนี้โซล่าเซลล์ยังมีความคุ้มค่าในระยะยาว เพราะจะช่วยปรับปรุงคุณภาพชีวิตของเราให้ดียิ่งขึ้น