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The Technology Research and Development Department has achieved another significant breakthrough in the field of core connecting components for chassis and suspension systems, successfully developing and validating a new-generation high-performance bushing assembly. This assembly plays a crucial role in vehicle dynamics and ride comfort. “Silent Joints”—this upgrade starts from the fundamental connections, significantly enhancing the vehicle’s vibration isolation performance, steering precision, and noise insulation levels.

Facing the Core Challenge: Connectors' “Contradiction” Balance

As a critical hub connecting the chassis’ rigid structure with moving components, the bushing assembly consistently faces a series of core engineering trade-offs: How can we efficiently filter out road bumps and vibrations while ensuring precise steering and handling responsiveness? And how can we provide sufficient flexible cushioning to enhance ride comfort without compromising adequate lateral support and durability reliability? Traditional designs that focus on a single performance aspect can no longer meet today’s growing demand for a high-quality driving experience across the entire vehicle. Our technical team has precisely targeted this complex balancing challenge and embarked on systematic R&D efforts.

Technological Breakthrough: Collaborative Optimization of Multi-dimensional Performance

The new-generation bushing assembly has achieved a significant performance leap through comprehensive innovations in materials, structure, and manufacturing processes.

1. Advanced Materials Composites and Fluid Technology: At its core, this technology employs a multi-stage stiffness rubber formulation combined with a high-performance hydraulic damping chamber design. Low-frequency, large-amplitude impacts are efficiently absorbed and smoothed out by the hydraulic chamber, while high-frequency, fine vibrations are filtered out through a specialized rubber formulation, enabling intelligent differentiation and optimized handling of vibrations across the entire frequency spectrum.

2. Topological optimization of structural design: Based on massive road load data and computer simulations, the structural configuration of the metal skeleton and rubber body within the bushing is topologically optimized. This optimization endows the bushing with differentiated stiffness characteristics in various directions—radial, axial, and angular—precisely matching real-world loading scenarios. While enhancing its longitudinal impact-absorbing capability, it also improves lateral support stability.

3. Long-lasting reliability and consistent performance: A new vulcanization bonding process and dustproof sealing technology have been employed to ensure that the rubber and metal components maintain their integrity even under extreme temperatures. -40 From ℃ to 120 ℃) and bonding reliability under long-term alternating stress. After undergoing rigorous bench durability tests and vehicle-equivalent mileage tests, its performance degradation rate has been significantly reduced, ensuring highly consistent performance throughout its service life.

Vehicle Value: An Upgraded Experience "Unseen Heroes"

The application of this bushing assembly delivers immediate and lasting, far-reaching improvements to the entire vehicle:

· Exceptional comfort: Vehicle vibration and noise levels have been significantly reduced, particularly the “humming” and jarring sensations experienced when driving over rough roads—these have been greatly improved. The cabin’s quietness and smooth ride now rival those of higher-end vehicle models.

· Precise handling: During cornering and lane changes, the suspension system responds more directly, ensuring a more stable vehicle posture. This delivers a driving experience that is both smooth and resilient, enhancing driver confidence and enjoyment.

· Overall sense of premium quality: By optimizing the fundamental pathways for force and vibration transmission, we’ve fundamentally enhanced the vehicle’s ride quality and reputation for excellence—making this component an indispensable core element in creating a “luxurious driving experience.”

The Technology R&D Department will continue to focus on key components that determine the fundamental performance of the entire vehicle, using continuous innovation to unravel complex engineering challenges and transforming precise mechanical performance into an exceptional user experience that is truly perceptible. We will steadily strengthen our company’s core competitiveness in the field of dynamic performance.

— Presented with great effort by the R&D Department