Welding is a core manufacturing service that plays a crucial role in producing high-quality components across various industries. At VPIC Group, we offer a range of welding techniques—including robotic welding, manual welding, TIG (Tungsten Inert Gas), and MIG (Metal Inert Gas)—each tailored to specific applications. These methods allow us to join materials with precision, strength, and efficiency, making them essential for everything from automotive parts to industrial structures. While many manufacturers provide similar welding services, the real difference lies in the level of expertise, support, and innovation they bring to the table. At VPIC Group, we don’t just follow your specifications—we actively collaborate with you throughout the entire process. From initial design consultation to final quality checks, we ensure that every component meets the highest standards of performance and reliability. Our commitment to excellence is reflected in our use of advanced welding technologies, which enable faster production times, consistent quality, and cost-effective solutions. This approach has earned us trust from clients in the automotive, powersports, construction, and other demanding industries. We believe that true value comes not only from the end product but also from the seamless partnership we build with our customers. Continue reading to discover how our welding processes are designed to meet your unique needs and deliver superior results.  At VPIC Group, we utilize four primary welding techniques, each suited for different applications and material types. While they all serve the same fundamental purpose—joining materials together—they each bring distinct advantages to the table: Robotic welding is ideal for high-volume, repetitive tasks where precision and consistency are key. Our automated systems minimize human error, reduce lead times, and ensure uniform weld quality. This method is especially beneficial for complex projects that require tight tolerances and long-term durability. With continuous advancements in automation, robotic welding has become a cornerstone of modern manufacturing. TIG welding is known for its precision and control, making it perfect for delicate or thin materials. This technique uses a non-consumable tungsten electrode and an inert gas shield to produce clean, strong welds. While it's slower than some other methods, it offers unmatched flexibility and is often used in aerospace, medical devices, and custom fabrication. MIG welding is one of the most commonly used methods due to its speed and ease of use. It’s particularly effective for joining thick materials and is widely used in the automotive and construction industries. The process involves a wire electrode that melts into the joint, creating a strong bond. Though it may not offer the same level of finesse as TIG, MIG welding is highly efficient and cost-effective when done correctly. Manual welding, also known as stick welding, is a versatile technique that doesn’t rely on external shielding gases. It’s often used in field applications or areas where robotic systems can’t reach. Our skilled technicians use this method to perform touch-ups, repair work, or weld in challenging environments. While it requires more skill and experience, it remains a valuable tool in our welding arsenal.  Our welding process is carefully structured to ensure maximum quality, efficiency, and customer satisfaction. Here’s a step-by-step breakdown of what you can expect when working with us: Before any welding begins, we thoroughly inspect the materials to ensure they meet our strict quality standards. We also prepare the components by cutting, shaping, and positioning them according to your specifications. This stage is critical to setting the foundation for a successful project. Once everything is ready, we move into the production phase. Depending on the complexity and volume of the job, we may use robotic, TIG, MIG, or manual welding techniques. Our state-of-the-art equipment ensures that every weld is precise, strong, and durable. After welding, each component undergoes rigorous inspection. We test a sample of 5 out of 100 parts, and if any issues are found, we conduct a full batch inspection. This ensures that only the highest-quality products leave our facility. Some materials may require additional treatment after welding to improve their structural integrity or appearance. This might include heat treatment, polishing, or stress relief. Our team ensures that all post-weld processes are completed to the highest standard.  At VPIC Group, we believe that knowledge is power. That’s why we continuously share insights, updates, and best practices through our blog and other resources. Whether you're looking to understand the latest trends in welding or want to learn more about our manufacturing capabilities, we’re here to help. Subscribe to our blog today and stay up-to-date with the latest developments in manufacturing technology and process optimization. Tank 300 Car,Tank 300 Suv,Gwm Tank Hybrid,Auto Tank 300 Henan Wangdao Automobile Service Co., Ltd. , https://www.wangdaocars.comWhat Welding Processes Does VPIC Group Offer?
1. Robotic Welding
2. TIG Welding
3. MIG Welding
4. Manual (or Stick) Welding
How Does Our Welding Manufacturing Process Work?
1. Preproduction Planning
2. Production
3. Quality Inspection
4. Post-Weld Treatment
Stay Informed About Advanced Manufacturing Techniques
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What Is the Welding Manufacturing Process at VPIC Group?
The Tank 300 is a compact off - road SUV under the Tank brand of Great Wall Motors. Here are some detailed information about it:
Exterior Design
- Overall Style: The Tank 300 adopts a tough design style, looking very rugged and robust. Its overall shape is similar to a "square box", with straight lines and sharp edges, giving it a strong sense of power and muscularity. This design style is relatively unique among off - road SUVs and has high recognition.
- Front Facade: The front grille, which is close to a rounded - rectangle shape, is paired with round, retro - style LED headlight groups and a three - slat front grille, enhancing the integrity and conforming to the design style of a tough SUV. The raised lines on the engine hood further increase the vehicle's sense of power.
- Rear End: The square - shaped body, combined with the front and rear protruding wheel arches and a full - size external spare tire, presents a very rough visual effect.
Off - Road Performance
- Chassis: It features a body - on - frame structure, which can provide better rigidity and torsional resistance for the vehicle, enabling it to better handle complex road conditions during off - road driving. It has a relatively high ground clearance, with a minimum ground clearance of 224mm, an approach angle of 33°, a departure angle of 34°, and a break - over angle of 23.1°, showing excellent passing performance.
- 4 - Wheel - Drive System: It is equipped with a part - time 4 - wheel - drive system from BorgWarner. Some models are also equipped with front and rear differential locks, as well as functions such as "Tank Turn" and "Crawl Mode". These off - road configurations can help the vehicle maintain good traction and stability under harsh road conditions and improve the vehicle's ability to get out of trouble.
- Suspension System: The combination of a double - wishbone independent front suspension and a multi - link non - independent rear suspension can provide a certain level of comfort while ensuring off - road performance.
Power System
It is powered by a 2.0T turbocharged engine that meets the national VI emission standard. The maximum power is 227 horsepower, and the maximum torque is 387N·m. It is matched with an 8 - speed automatic transmission with manual shift mode. This power system provides good power output and also has relatively good fuel economy.
Interior Configuration
Design Style: The interior follows the style of a tough off - road vehicle. Large - area square - straight contour lines are combined with rounded chamfers. Round air - conditioning vents and round function knobs, along with diamond - stitched interior panels, make it more textured.
Technology Configuration: Mid - to - high - end models are equipped with a 12.3 - inch dual - screen liquid - crystal central control display with a resolution of 1920 * 720, showing excellent display effect. The vehicle - machine system is built based on iFlytek 3.5 system, supporting voice recognition control, and comes with applications such as AutoNavi Map, iQIYI, and Douyin for convenient daily use.
Seat Comfort: The seats are wide in shape. Depending on the configuration, they are wrapped with fabric, imitation leather, or genuine leather respectively. The leather has a fine touch, and the filler is soft. Mid - to - high - end models support electric adjustment for the driver and front - passenger seats. Both front seats have a heating function, and the driver's seat also has a massage function.
Safety Configuration
It is equipped with multiple safety configurations, such as driver and front - passenger airbags, side airbags, curtain airbags, tire pressure monitoring, vehicle stability control system, brake assist, traction control, etc. Some models are also equipped with an L2 - level driving assistance system.
Since its launch in 2020, the Tank 300 has had a good market performance and is loved by many off - road enthusiasts. It not only has excellent off - road performance but also performs well in terms of comfort and technology configuration, making it a cost - effective compact off - road SUV.