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DV/PV testing is a critical step in automotive component development, conducted to confirm that the design is correct and the production process is stable before entering mass production. This helps reduce quality risks and prevent future issues.

In the automotive industry—where high quality and strict standards are essential—every stage of product development and manufacturing must be systematically controlled. One of the key steps is testing to ensure that both the "design" and the "manufacturing process" meet specifications and expectations. These evaluations are known as DV (Design Validation) and PV (Process Validation) tests.

1. What Are DV and PV Tests?
DV (Design Validation) is performed to verify that the product’s design meets all defined engineering requirements, including structure, durability, and performance under various conditions. These tests are typically conducted on prototype parts or limited-production samples, without consideration for the stability of the actual manufacturing process.

PV (Process Validation) ensures that the actual production process can consistently manufacture parts that meet specifications. This testing uses parts produced from the real production line, using the same machinery, materials, and labor intended for mass production. The goal is to confirm that full-scale manufacturing can maintain the product's designed quality.

2. Objectives of DV/PV Testing
- To confirm that the product design functions as specified under real-world conditions
- To verify the durability and reliability of the component under potential usage scenarios
- To assess the stability of the production process and reduce variation
- To minimize quality issues when entering mass production
- To build confidence for both manufacturers and customers (OEMs)

3. Examples of DV and PV Testing
DV Testing often involves simulating harsh conditions, such as:
- Thermal Cycling (rapid temperature changes)
- Vibration Testing (continuous mechanical stress)
- UV Resistance
- Salt Spray Testing (to simulate long-term corrosion exposure)

These tests replicate real-life stressors that the component may face over its lifespan.

PV Testing, on the other hand, focuses on the production line’s capability, including:
- Proper assembly
- Dimensional consistency
- Leak resistance
- Long-term durability under real usage

All PV tests must be conducted on parts produced under full production conditions.

4. Steps in Conducting DV/PV Tests
- Define the design specifications and key characteristics of the part
- Develop a Test Plan according to industry standards (e.g., ISO, SAE, or OEM specifications)
- Prepare samples from prototypes (for DV) and from the actual production line (for PV)
- Perform testing in certified laboratories
- Collect and analyze test results, then compile summary reports
- Use findings to improve the product if issues are identified

5. Relationship with the APQP Process
DV and PV tests are core elements of Phases 3 and 4 in the APQP (Advanced Product Quality Planning) framework—an internationally recognized quality planning system in the automotive industry:

- Phase 3: Design & Development Validation — associated with DV testing
- Phase 4: Product & Process Validation — involves PV testing