Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy vs Yaskawa Motoman Gp88
Side-by-side comparison of Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy (Shandong Tengyang Intelligent Equipment Co., Ltd) and Yaskawa Motoman Gp88 (Gongboshi Robot Technology Co., Ltd.) — specs, pricing, Robolist Trust Score, and verified deployments. Updated daily.
Optimize comparison for buyer
Optimized for Hospitality & F&B buyers. Priority specs lifted to the top and marked with a target.
Layer 1: Identity & Trust
Manufacturer Country
Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum AlloyCN- Yaskawa Motoman Gp88—
Verified Deployments
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy0 Deployments
- Yaskawa Motoman Gp880 Deployments
Layer 2: Operational
Price Range (USD)
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy$8,500–$22,000
- Yaskawa Motoman Gp88$28,200–$30,800
Availability Status
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum AlloyACTIVE
- Yaskawa Motoman Gp88ACTIVE
Arm Mechanics
Payload
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy12 kg
- Yaskawa Motoman Gp88—
Reach
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy2,010 mm
- Yaskawa Motoman Gp882,236 mm
Degrees of Freedom
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy6
- Yaskawa Motoman Gp886
Repeatability
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy±0.05 mm
- Yaskawa Motoman Gp88±0.03 mm
IP Rating (Arm)
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy—
- Yaskawa Motoman Gp88IP67 wrist, IP54 body (IP65 with XP package)
Commercial
Price (USD)
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy$8,500–$22,000
- Yaskawa Motoman Gp88$28,200–$30,800
Warranty
- Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy1 yrs
- Yaskawa Motoman Gp88—
| Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloyindustrial-armShandong Tengyang Intelligent Equipment Co., Ltd 37.2Trust Score | Yaskawa Motoman Gp88industrial-armGongboshi Robot Technology Co., Ltd. 18.6Trust Score | |
|---|---|---|
| Layer 1: Identity & Trust | ||
| Manufacturer Country (values differ) | CN | — |
| Verified Deployments | 0 Deployments | 0 Deployments |
| Layer 2: Operational | ||
| Price Range (USD) (values differ) | $8,500–$22,000 | $28,200–$30,800 |
| Availability Status | ACTIVE | ACTIVE |
| Layer 3: Category Specific | ||
| Arm Mechanics | ||
| Payload (priority for Hospitality & F&B buyers) (values differ) | 12 kg | — |
| Reach (values differ) | 2,010 mm | 2,236 mm |
| Degrees of Freedom | 6 | 6 |
| Repeatability (values differ) | ±0.05 mm | ±0.03 mm |
| IP Rating (Arm) (values differ) | — | IP67 wrist, IP54 body (IP65 with XP package) |
| Commercial | ||
| Price (USD) (values differ) | $8,500–$22,000 | $28,200–$30,800 |
| Warranty (values differ) | 1 yrs | — |
Insufficient data for full comparison
The following fields had no data for any of the selected robots: Year First Available, Battery / Shift Runtime, Path Accuracy, Max TCP Speed, Robot Weight, IP Rating (Wrist), Cycle Time (25/305/25), MTBF, Duty Cycle, Vibration Damping, Safety Category, Dual Check Safety, Safety I/O Pairs, E-Stop Response, Safe Zone Count, Controller Model, Programming Languages, Teach Pendant Type, Offline Programming, Digital Twin Support, Communication Protocols, ROS-Industrial Support, IoT / Cloud Platform, Cybersecurity Certs, Predictive Maintenance, Tool Flange Standard, Tool Changer (ISO), Internal Cable Routing, Pneumatic Lines, Electrical Lines, Service Network, Spare Parts Lead Time, Expected Service Life
About this comparison
Laser Welding Robot - Efficient Welding of Stainless Steel and Aluminum Alloy vs Yaskawa Motoman Gp88 compares two robots in the industrial-arm category. All data is sourced from manufacturer spec sheets, verified deployments, and third-party filings; see our methodology for how the Robolist Trust Score is calculated.