Quartz Pendulum Plate | Prosun Semiconductor

As the core sensing element of a flexure accelerometer, the quartz pendulum plate is connected to the outer frame via an ultra-thin hinge (thickness ≤ 0.03 mm), forming a freely oscillating cantilever structure. The gold-plated layers on both sides of the pendulum plate serve as the movable electrodes of a differential capacitor, while the fixed capacitor electrodes (such as the yoke iron end faces) act as the stator plates, forming a capacitive sensor. When subjected to acceleration, the pendulum plate deflects, causing a change in capacitance. The servo loop then generates a feedback torque to balance the inertial torque, achieving closed-loop control.

Model/Specification: (Φ22.2mm)

Quartz Pendulum Plate

Performance Specifications for Quartz Pendulum Plate

Technical Parameters

No.	Product Specifications	Technical Specifications
1	Material	Far Ultraviolet (FUV) Quartz Glass JGS1
2	Thickness	0.76±0.02mm
3	Flatness	≤273nm
4	Parallelism	≤0.002mm
5	Surface Roughness	≤0.05um
6	Boss Height	0.019±0.002mm
7	Sag	1.4-1.9mm
8	Beam Thickness	0.025±0.005mm

Performance Specifications

1. Physical Properties:

High Hardness & Wear Resistance: Quartz has a Mohs hardness of 7, significantly higher than ordinary glass, with excellent abrasion resistance, making it suitable for high mechanical stress applications (e.g., missile guidance, industrial vibration monitoring).

Low Density & Lightweight Design: Quartz density (~2.65 g/cm³) ensures strength while enabling lightweight construction, improving sensor dynamic response speed.

Non-Plastic Structure: The quartz pendulum plate is made of fused quartz (SiO₂ polycrystal). Its short-range ordered glassy structure (Si-O-Si bond network) provides high stability, preventing performance degradation due to grain boundary defects.

2. Thermal Performance:

Ultra-Low Thermal Expansion Coefficient: Quartz glass has a thermal expansion coefficient of only 5.5×10⁻⁷/°C, 1/12 to 1/20 that of ordinary glass, ensuring minimal dimensional changes in the -50°C to 200°C range for precise measurements in high-temperature environments.

High-Temperature Resistance & Thermal Stability: Softening point reaches 1730°C, allowing long-term use at 1100°C and short-term tolerance up to 1450°C. It exhibits excellent thermal shock resistance—rapid cooling from 1100°C to room temperature does not cause cracking.

Enhanced High-Temperature Mechanical Properties: The flexural and compressive strength of the quartz pendulum plate increases with temperature (due to improved plasticity), maintaining high mechanical strength even under extreme heat.

3. Chemical Stability:

Corrosion Resistance: Quartz is inert to most acids, alkalis, and salts (except hydrofluoric acid and hot concentrated phosphoric acid), offering 30× the corrosion resistance of ceramics and 150× that of stainless steel.

Contamination Resistance & Low Impurity: High-purity quartz (SiO₂ ≥ 99.99%) with minimal metal impurities (e.g., Fe₂O₃ ≤ 0.06%) prevents chemical interference with performance.

Radiation Resistance: Low thermal neutron capture cross-section and radiation stability make it suitable for nuclear industry and radiation laboratory applications.

Widely used in aerospace, nuclear industry, medical imaging, industrial radiography, and related fields.

Application Fields

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