SS310LHRTG Product Overview

Introduction

SS310LHRTG is a high-temperature resistant thermocouple sensor belonging to the category of industrial temperature sensors. This product is widely used in various industries for its exceptional characteristics and reliable performance.

Basic Information Overview

Category: Industrial Temperature Sensor
Use: Measurement of high-temperature environments
Characteristics: High-temperature resistance, accuracy, durability
Package: Standard sensor housing
Essence: Reliable temperature measurement in extreme conditions
Packaging/Quantity: Typically sold individually or in sets of multiple sensors

Specifications

Temperature Range: -200°C to 1100°C
Accuracy: ±1°C
Response Time: <1 second
Material: Stainless steel
Output Signal: Type K thermocouple signal

Detailed Pin Configuration

The SS310LHRTG sensor has a standard pin configuration with two output pins for connecting to the measuring instrument.

Functional Features

High-temperature resistance
Fast response time
Accurate temperature measurement
Durable construction

Advantages and Disadvantages

Advantages

Reliable performance in extreme temperatures
Fast and accurate measurements
Long-lasting durability

Disadvantages

Limited temperature range compared to some specialized sensors
May require additional protection in highly corrosive environments

Working Principles

SS310LHRTG operates on the principle of thermoelectric effect, where a temperature gradient between two dissimilar metals generates a voltage proportional to the temperature difference.

Detailed Application Field Plans

This sensor is commonly used in the following applications: - Industrial furnaces - Chemical processing plants - Power generation facilities - Aerospace industry

Detailed and Complete Alternative Models

Model A: SS315LHRTG - Extended temperature range
Model B: SS320LHRTG - Enhanced corrosion resistance
Model C: SS330LHRTG - Compact design for space-constrained installations

In conclusion, SS310LHRTG is a reliable and durable high-temperature sensor suitable for various industrial applications, providing accurate temperature measurements in extreme conditions.

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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací SS310LHRTG v technických řešeních

What is SS310LHRTG?
- SS310LHRTG is a high-temperature resistant stainless steel alloy known for its exceptional strength and oxidation resistance at elevated temperatures.
What are the key properties of SS310LHRTG?
- SS310LHRTG exhibits high creep strength, excellent resistance to oxidation, and good corrosion resistance in various environments, making it suitable for high-temperature applications.
What temperature range can SS310LHRTG withstand?
- SS310LHRTG can withstand temperatures up to 1150°C (2100°F) in continuous service and up to 1035°C (1900°F) in intermittent service.
In what technical solutions is SS310LHRTG commonly used?
- SS310LHRTG is commonly used in industrial furnaces, heat treatment equipment, petrochemical processing, and other high-temperature applications where corrosion and heat resistance are critical.
How does SS310LHRTG compare to other stainless steel alloys in high-temperature applications?
- SS310LHRTG offers superior high-temperature strength and oxidation resistance compared to many other stainless steel alloys, making it a preferred choice for demanding applications.
What are the welding considerations for SS310LHRTG?
- Welding of SS310LHRTG requires careful attention to preheating, interpass temperature control, and post-weld heat treatment to maintain its high-temperature properties and prevent sensitization.
Can SS310LHRTG be used in corrosive environments?
- Yes, SS310LHRTG has good resistance to oxidation and corrosion in various atmospheres, including sulfidizing, carburizing, and nitriding environments.
What are the limitations of SS310LHRTG?
- While SS310LHRTG excels in high-temperature applications, it may not be suitable for highly reducing or sulfuric environments due to potential embrittlement.
How can SS310LHRTG be machined?
- SS310LHRTG can be machined using conventional methods, but tools should be kept sharp, and cutting speeds should be reduced to minimize work hardening.
Are there any special considerations for the design and fabrication of components using SS310LHRTG?
- Design and fabrication of components with SS310LHRTG should consider its thermal expansion characteristics, proper support to minimize distortion at high temperatures, and avoidance of abrupt changes in section thickness to reduce stress concentrations.