| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
Mark-10 |
ECONOMICAL FORCE GAUGE, 50 LBF / |
9 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 20 LBF / 3 |
10 |
|
 |
Mark-10 |
MOTORIZED WIRE CRIMP PULL TESTER |
1 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 2 LBF / 32 |
10 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 50 LBF / 8 |
10 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 5 LBF / 80 |
10 |
|
 |
Mark-10 |
ADVANCED ERGONOMICS TESTING KIT |
1 |
|
 |
REED Instruments |
DATA LOGGING FORCE GAUGE, 44 LBS |
19 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 500 LBF / |
10 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 0.5 LBF / |
10 |
|
 |
Mark-10 |
TORQUE GAUGE, 10 OZFIN / 7 KGFMM |
10 |
|
 |
Mark-10 |
BASIC FORCE GAUGE, 50 LBF / 25 K |
10 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 1000 LBF / |
10 |
|
 |
Mark-10 |
TORQUE TOOL TESTER, 25 LBFIN / 4 |
10 |
|
 |
Mark-10 |
BASIC FORCE GAUGE, 0.25 LBF / 10 |
10 |
|
 |
Mark-10 |
ADVANCED ERGONOMICS TESTING KIT |
1 |
|
 |
Mark-10 |
BASIC ERGONOMICS TESTING KIT W/S |
1 |
|
 |
Mark-10 |
ADVANCED FORCE GAUGE, 200 LBF / |
10 |
|
 |
Mark-10 |
BASIC FORCE GAUGE, 200 LBF / 100 |
10 |
|
 |
Mark-10 |
BASIC FORCE GAUGE, 20 LBF / 10 K |
10 |
|
Force/Torque Gauges are precision instruments used to measure compressive, tensile forces or rotational torque in industrial and scientific applications. These devices combine sensor technology with data processing systems to quantify mechanical interactions. Their importance spans across quality control, product testing, and process optimization in modern manufacturing, automotive, aerospace, and medical device industries, ensuring safety, compliance, and performance standards.
| Type | Functional Features | Application Examples |
|---|---|---|
| Digital Force Gauges | High-resolution LCD, peak value capture, data logging | Material tensile testing, packaging seal strength analysis |
| Analog Torque Gauges | Mechanical dial display, overload protection | Automotive bolt tightening verification |
| Wireless Torque Sensors | Bluetooth transmission, real-time monitoring | Rotating machinery diagnostics |
| Multi-axis Sensors | Simultaneous force/torque measurement in 6-DOF | Robot arm dynamics analysis |
Typical construction includes: (1) Load cell with strain gauge bridge circuit as primary sensing element (2) Signal conditioning electronics for noise reduction and amplification (3) Digital display unit with user interface (4) Mechanical housing with mounting fixtures (5) Data communication ports (USB/RS-232/WiFi). Advanced models integrate microprocessors for automatic calibration and temperature compensation algorithms.
| Parameter | Importance |
|---|---|
| Measurement Range | Determines operational limits (e.g., 0.1-500 Nm torque) |
| Accuracy Class | ISO 9001 compliance ( 0.5% FS typical) |
| Sampling Rate | Affects dynamic measurement capability (up to 10 kHz) |
| Resolution | Minimum detectable change (e.g., 0.01 N) |
| Environmental Rating | IP65 protection for industrial environments |
Core industries include: Automotive (engine assembly torque verification), Aerospace (composite material testing), Electronics (connector insertion force analysis), Medical (surgical tool torque calibration), and Packaging (lid sealing force measurement). Typical equipment integration: motor test stands, robotic grippers, and universal testing machines.
| Manufacturer | Representative Product |
|---|---|
| HBM GmbH | U10M torque transducer series |
| Ono Sokki | DS-400N digital force gauge |
| IMADA CO., LTD. | ZTS-N torque sensor module |
| Burster | 8541-6203 multi-axis sensor |
Key considerations: Match measurement range with application requirements (20% safety margin recommended), consider environmental conditions (temperature/vibration), verify compatibility with existing data acquisition systems, evaluate calibration certification needs (ISO/IEC 17025), and factor in long-term maintenance costs. For dynamic applications, prioritize high sampling rates and wireless capabilities.
Current developments focus on IoT integration for predictive maintenance, MEMS-based miniature sensors for embedded applications, and AI-enhanced signal processing for improved accuracy. Market growth (CAGR 5.2% 2023-2030) driven by electric vehicle manufacturing demands and smart factory implementations. Emerging standards like ASTM E2448 for portable torque calibration are shaping calibration protocols.