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The SZGH-25 is a small precision lathe machine designed for efficient processing of bar stock within 25mm, with remarkable flexibility and high precision. Its X-axis travel is 500mm and Z-axis travel is 180mm, enabling it to meet the processing needs of a variety of small workpieces.

SZGH-25 Small Lathe: Ideal For Efficient Processing Of 25mm Bar Material


The SZGH-25 is a small precision lathe machine designed for efficient processing of bar stock within 25mm, with remarkable flexibility and high precision. Its X-axis travel is 500mm and Z-axis travel is 180mm, enabling it to meet the processing needs of a variety of small workpieces.
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1. Compact design, space saving
The SZGH-25 lathe has a compact design and is suitable for placement in workshops with limited space. Due to its miniaturized structure, the machine takes up less space but provides sufficient processing capacity. This is especially important for small processing companies that need to improve production efficiency while saving workshop space.

2. High-precision processing to ensure workpiece quality
The SZGH-25 lathe is equipped with high-precision guide rails and drive systems, which can achieve micron-level processing accuracy. It is particularly suitable for processing bars within 25mm and can meet the manufacturing of products with strict dimensional tolerances. Whether in external cylindrical processing, cutting, turning or finishing, the SZGH-25 lathe can ensure high quality and stability of the workpiece.

3. Flexible X-axis and Z-axis travel
The SZGH-25 lathe bed has an X-axis travel of 500mm and a Z-axis travel of 180mm, providing sufficient operating space to process bars of various shapes and sizes. The 500mm stroke of the X-axis is suitable for processing long workpieces, while the 180mm stroke of the Z-axis makes processing more precise, especially for parts that require high-depth cutting. Users can flexibly adjust the operation mode of the machine tool according to different processing requirements to ensure processing accuracy and efficiency.

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FAQ

The following are the common questions we have collected about Robot Arm.
Q1. What materials can robotic laser welding handle?
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A1:Robotic laser welding works excellently on carbon steel, stainless steel, and titanium. It can also weld aluminum and copper, but these highly reflective materials require more powerful lasers and precise parameter control to overcome their reflective nature.
Q2. How precise do the parts need to be?
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A2:Extremely precise. Laser welding focuses energy on a tiny spot, so gaps between parts must be minimal. High-precision fixtures are mandatory to hold parts perfectly, as even a small gap can lead to burn-through or a weak weld.
Q3. Why choose robotic laser welding over MIG or TIG?
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A3:Choose it for speed, precision, and minimal heat. It's significantly faster than TIG and MIG, creates very narrow welds, and puts so little heat into the part that there is almost no distortion. It is ideal for high-volume, high-quality applications where aesthetics and part integrity are critical.
Q4. What materials can robotic laser welding handle?
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A4:Robotic laser welding works excellently on carbon steel, stainless steel, and titanium. It can also weld aluminum and copper, but these highly reflective materials require more powerful lasers and precise parameter control to overcome their reflective nature.
Q5. How precise do the parts need to be?
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A5:Extremely precise. Laser welding focuses energy on a tiny spot, so gaps between parts must be minimal. High-precision fixtures are mandatory to hold parts perfectly, as even a small gap can lead to burn-through or a weak weld.
Q6. Why choose robotic laser welding over MIG or TIG?
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A6:Choose it for speed, precision, and minimal heat. It's significantly faster than TIG and MIG, creates very narrow welds, and puts so little heat into the part that there is almost no distortion. It is ideal for high-volume, high-quality applications where aesthetics and part integrity are critical.
Q7: How can robotic TIG welding solve my challenges with consistent, high-integrity welds on critical components?
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A7: Human fatigue and subtle variations are the biggest enemies of perfect welds. Our robotic Tig welding systems eliminate this. The robot precisely repeats the exact same arc length, travel speed, and filler metal placement every single time. This means: Zero Defects: Drastically reduces porosity, undercut, and inconsistencies. Perfect Penetration: Ensures optimal weld penetration for maximum strength, which is crucial for aerospace, medical, or automotive applications. Flawless Aesthetics: Delivers a clean, shiny, and uniform bead that requires little to no post-weld finishing, enhancing the value of your product.
Q8: My current welding process is too slow and expensive. How does robotic TIG welding provide a fast Return on Investment (ROI)?
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A8: While manual TIG is slow and skill-dependent, automation transforms your cost structure. The ROI comes from multiple streams: Dramatically Higher Throughput: The robot works 24/7 without breaks, welding significantly faster than even the most skilled human. Massive Material Savings: Precise control means you use exactly the right amount of expensive filler metal and shielding gas, eliminating waste. Reduced Rework & Scrap: Superior consistency means you spend less time and money fixing bad welds or scrapping expensive parts. Most of our clients see a full ROI in under 12 months.
Q9: My production involves complex parts and short runs. Isn't robotic welding only for high-volume, simple tasks?
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A9: That's a common myth! Modern robotic TIG cells are built for flexibility. With features like: Easy Programming: User-friendly touchscreen interfaces and lead-through teaching allow you to program complex paths in minutes, not hours. Advanced Seam Tracking: The system can automatically find and follow the weld joint, compensating for part misalignment or thermal distortion. Quick-Change Tooling: Switch fixtures rapidly to weld different components in the same cell.