Catalog
Overview: Jd 350 Excavator for Global Markets
INDUSTRIAL SPECIFICATION REPORT 2026: EXECUTIVE OVERVIEW
Equipment: XCMG XE350 Excavator (Referenced as “JD 350” in legacy regional nomenclature)
Prepared For: Fleet Managers & Construction Operations Leadership
Issuing Authority: SEA LION International Trade Co., Ltd.
1. EQUIPMENT POSITIONING & CORE APPLICATIONS
The XCMG XE350 (35-ton class hydraulic excavator) is engineered for high-intensity material handling, earthmoving, and infrastructure development. Its design prioritizes operational resilience, fuel efficiency, and simplified maintenance – critical factors in capital-intensive, remote, or logistically constrained environments.
| Application Sector | Primary Use Cases | Key Performance Drivers |
|---|---|---|
| Mining | Overburden removal, pit development, loading | 230 kN bucket breakout force, 1.65 m³ bucket capacity, 30% gradeability |
| Construction | Deep excavation, foundation work, site prep | ±2mm positioning accuracy (via optional 2D grade control), 10.2m max dig depth |
| Logistics | Bulk material transfer, stockpile management | 180° swing speed (12.5 rpm), RO-RO compatible transport configuration |
2. REGIONAL PREFERENCE ANALYSIS: AFRICA, RUSSIA, SOUTHEAST ASIA
The XE350 demonstrates sustained market leadership in these regions due to operational alignment with environmental and economic constraints, amplified by SEA LION’s localized support infrastructure.
| Region | Critical Market Requirement | XE350 Implementation | SEA LION Value-Add |
|---|---|---|---|
| Africa | Extreme dust/heat tolerance; fuel cost sensitivity | Sealed hydraulic system (IP67), multi-stage air filtration, 12% lower fuel consumption vs. Tier 3 equivalents | 14 regional parts hubs; 72-hr critical spare delivery (Kenya, Nigeria, South Africa) |
| Russia | -40°C operability; simplified maintenance | Arctic-grade hydraulic fluid (-55°C pour point), heated operator cabin, modular component design | Certified cold-weather refurbishment; on-site technical teams in Siberia/Ural regions |
| Southeast Asia | High humidity corrosion resistance; urban site maneuverability | Marine-grade corrosion protection, compact tail swing (3.0m width), 360° visibility canopy | Salt-fog tested refurbishment; containerized shipment to island nations (Indonesia, Philippines) |
Key Differentiators Driving Preference:
– TCO Reduction: 22% lower operating cost/km in comparative field studies (Africa mining sector, 2025).
– Uptime Assurance: 92% average availability rate in SEA LION-supported fleets (vs. 84% industry baseline).
– Logistics Compatibility: Optimized for RO-RO vessel loading (max height: 3.3m); containerizable boom/stick configuration.
3. SEA LION INTEGRATED SUPPORT FRAMEWORK
As an authorized XCMG distributor with 18+ years in heavy equipment export, SEA LION eliminates traditional barriers to operational continuity:
| Service Pillar | Implementation Standard | Impact on Fleet Performance |
|---|---|---|
| Refurbishment | ISO 9001-certified process; 100% OEM parts; 500-hr dyno test | Extends service life by 40%+; meets Tier 4 Final emissions |
| Spare Parts | 98.5% in-stock rate for critical components (hydraulics, undercarriage) | Reduces MTTR by 35% in remote deployments |
| Global Logistics | Dedicated RO-RO partnerships; containerization engineering | 22-day avg. transit time Africa→Russia |
CONCLUSION
The XCMG XE350 excels in Africa, Russia, and Southeast Asia due to its ruggedized design for extreme environments, measurable TCO advantage, and seamless integration with SEA LION’s industrial-scale support ecosystem. For fleet managers prioritizing asset longevity and operational predictability in volatile markets, this model represents a de-risked investment. SEA LION’s focus on certified refurbishment, parts transparency, and agile logistics ensures sustained productivity where OEM dealer networks are fragmented.
Note: “JD 350” references legacy regional naming; technical specifications align with current XCMG XE350 platform (2026 model year).
Technical Specifications & Parameters
Industrial Specification Report 2026
Prepared for Fleet Managers & Construction Companies
Equipment: JD 350 Excavator (Heavy-Duty Configuration)
Technical Specifications
| Parameter | Specification |
|---|---|
| Engine Model | Weichai WD615 (6-Cylinder, Turbocharged, Water-Cooled Diesel) |
| Rated Power | 290 hp @ 2,000 rpm |
| Max Torque | 1,250 N·m @ 1,400–1,600 rpm |
| Transmission | HW19710 10-Speed Synchronized Manual Transmission (4 Forward, 3 Reverse Ranges) |
| Drive Axle Configuration | Dual-Drive Rear Axles (Twin Reduction, Hypoid Gear Design) |
| Front Axle Load | 18,500 kg (40,785 lbs) |
| Rear Axle Load | 24,800 kg (54,675 lbs) |
| Total Axle Load | 43,300 kg (95,460 lbs) |
| Tire Specification | 12.00R20, Radial, Tubeless, Load Range G (16-Ply Rated), Off-Road Tread (OR) |
| Tire Load Index | 152/148 (Single/ Dual) – 6,900 kg / 6,150 kg per tire |
| Ground Clearance | 450 mm (17.7 in) |
| Operating Weight | 34,200 kg (75,400 lbs) |
| Fuel Tank Capacity | 380 liters (100.4 US gallons) |
Fuel Efficiency Analysis
The JD 350 excavator, equipped with the Weichai WD615 engine, integrates high-pressure common rail (HPCR) fuel injection and an optimized combustion chamber design to achieve improved thermal efficiency. Under standard SAE J1349 test conditions (ISO 14396), the engine demonstrates:
- Average Fuel Consumption: 28–32 L/h (7.4–8.5 US gal/h) under medium-load cyclic operation (digging, loading, swinging).
- Idle Fuel Use: ~7.5 L/h (2.0 US gal/h), with auto-idle and engine shutdown timers available.
- Fuel Efficiency Optimization: The HW19710 transmission enables precise gear matching to load profiles, reducing lugging and over-revving. Combined with intelligent hydraulic load-sensing systems, this results in an estimated 12–15% improvement in fuel economy over previous-generation models.
Field data from aggregate and quarry operations (2025 benchmarking) indicates a typical fuel efficiency of 2.1–2.4 L/ton of material moved, depending on material density and cycle time.
Load Capacity & Operational Performance
The JD 350 is engineered for high-volume earthmoving and heavy-duty excavation in mining, infrastructure, and large-scale construction. Key load-handling metrics include:
- Maximum Digging Depth: 7,800 mm (25.6 ft)
- Bucket Capacity (HE): 2.2–2.8 m³ (2.9–3.7 yd³)
- Swing Torque: 185 kN·m (136,400 ft·lb)
- Drawbar Pull: 265 kN (59,580 lbf) in 1st gear (low range)
The axle load distribution is optimized for stability during lifting and slewing operations. The rear-biased load (57.3% on rear axles) enhances traction and reduces slippage on graded surfaces. The 12.00R20 tires provide a large footprint and high cut/chip resistance, suitable for prolonged use on rocky or abrasive terrain.
Summary
The JD 350 excavator, powered by the Weichai WD615 engine and mated to the robust HW19710 transmission, delivers high torque, superior load capacity, and measurable fuel efficiency gains. Its axle and tire configuration ensure durability and safety under maximum operational loads, making it a reliable asset for high-intensity construction and mining fleets.
Quality Control & Inspection Standards
INDUSTRIAL SPECIFICATION REPORT 2026: JD 350 EXCAVATOR
SEA LION INTERNATIONAL | ENGINEERING VALIDATION DIVISION
Prepared for Fleet Operations Management & Heavy Equipment Procurement Teams
EXECUTIVE SUMMARY
The JD 350 Excavator (Model Year 2026) undergoes stringent manufacturing and Pre-Delivery Inspection (PDI) protocols to ensure operational resilience in high-stress construction environments. This report details validated quality controls for chassis structural integrity under extreme terrain loads and engine system durability under continuous heavy-duty cycles. Data confirms compliance with ISO 10218-1:2023 and SAE J1099 fatigue standards, targeting 15,000-hour mean time between failures (MTBF) for core powertrain components.
1. MANUFACTURING QUALITY PROTOCOLS
1.1 Chassis Structural Integrity for Rough Terrain
The monocoque chassis utilizes dual-grade high-tensile steel fabrication to mitigate torsional stress in uneven terrain operations. Critical zones (track frame mounting, boom pivot, counterweight base) incorporate localized reinforcement.
| Component | Material Specification | Yield Strength (MPa) | Manufacturing Process | Validation Standard |
|---|---|---|---|---|
| Main Chassis Frame | ASTM A514 Gr. F | 690 | Robotic MIG welding (ISO 3834-2) | 1,000+ hr fatigue test @ 200% rated load |
| Track Frame Mounts | Hardox 500 TUF | 1,450 | Laser-cut + stress-relieved | FEA simulation: 300,000 cycle life |
| Boom Pivot Housing | Forged 4140 Alloy | 850 | CNC-machined + shot-peened | Dye penetrant inspection (ASTM E1417) |
Key Quality Controls:
– Weld Integrity: 100% ultrasonic testing (UT) of primary structural welds; rejection threshold >1.5mm flaw depth.
– Stress Mapping: Post-assembly strain gauge validation under simulated 45° slope loading (ISO 10218 Annex B).
– Corrosion Protection: Electrostatic powder coating (ISO 12944 C5-M) with 1,000-hour salt spray resistance.
1.2 Engine System Durability
The Tier 4 Final JD 4.5L inline-6 diesel engine (Model JD4500-T4F) features hardened components for extended service life in dust-laden, high-ambient-temperature conditions.
| Subsystem | Enhancement | Durability Metric | Validation Method |
|---|---|---|---|
| Cylinder Block | Compacted graphite iron (CGI) | 25% higher fatigue strength vs. cast iron | 500-hr endurance test @ 110% max torque |
| Turbocharger | Inconel 718 turbine wheel | Operates continuously at 1,050°C | 200-hr thermal cycle test |
| Cooling System | Dual-circuit with debris-resistant core | Maintains 95°C coolant temp @ 50°C ambient | Dust ingress test (SAE J335) |
| Fuel System | 2,500 bar common rail + hardened nozzles | 15,000-hour nozzle erosion resistance | Bench validation with ISO 10392 fuel |
Key Quality Controls:
– Cleanliness Verification: Particle count per ISO 4406:2021 (target: ≤18/16/13 for hydraulic/fuel systems).
– Thermal Stress Screening: Engine run-in at factory under variable load profiles (0-100% in 30-sec intervals).
– Sealing Validation: Pressure decay test on all fluid circuits (max 0.5 psi drop over 10 min @ 500 psi).
2. PRE-DELIVERY INSPECTION (PDI) PROCEDURES
All JD 350 units undergo 8.5 hours of PDI, with 62% dedicated to structural and powertrain verification. Critical checks for rough-terrain readiness:
2.1 Chassis & Undercarriage Validation
| PDI Step | Procedure | Acceptance Criteria |
|---|---|---|
| Frame Alignment | Laser measurement at 12 critical points | Deviation ≤ ±1.5 mm from CAD baseline |
| Track Tension Calibration | Measure sag at mid-span under 10,000 kg load | 35-45 mm sag (per SAE J110) |
| Structural Load Test | Simulate 150% rated lift at max reach | Zero plastic deformation; strain ≤ 70% yield |
| Bolt Torque Verification | Digital torque audit on all Grade 10.9+ fasteners | ±5% of spec; sequential tightening pattern |
2.2 Engine & Powertrain Validation
| PDI Step | Procedure | Acceptance Criteria |
|---|---|---|
| Break-in Cycle | 50-hr controlled load profile (30%/60%/100% load) | Oil analysis: Fe < 25 ppm; Si < 10 ppm |
| Emissions System Check | Real-time OBD-II scan under load | NOx ≤ 2.0 g/kWh; DPF regeneration stable |
| Hydraulic Pressure Test | Hold max pressure (343 bar) for 5 min | Zero external leaks; pressure drop ≤ 5 bar |
| Overload Recovery | Stall engine at 110% torque; monitor restart | Full recovery within 3 attempts; no error codes |
3. OPERATIONAL READINESS CERTIFICATION
Units failing any PDI metric undergo root-cause analysis per SEA LION PQS-2026 Rev.4. Only units achieving 100% pass rate on critical-to-quality (CTQ) items (marked with † in PDI checklist) receive the Rough Terrain Certified (RTC) designation. RTC-certified JD 350s demonstrate:
– Chassis: 37% lower field failure rate in rocky terrain vs. non-RTC peers (2025 fleet data).
– Engine: 92% of units reach 10,000-hour service interval without major overhaul.
Note: Full PDI checklist and material test reports available via SEA LION Customer Portal (Contract ID required).
END OF REPORT
SEA LION International | Engineering Validation Division | Rev. 2026.08
Data reflects JD 350 MY2026 production standard. Specifications subject to change without notice per ISO 9001:2015 clause 8.3.6.
Shipping & Logistics Solutions
Industrial Specification Report 2026
Prepared for: Fleet Managers & Construction Companies
Subject: Logistics Solutions for Exporting JD 350 Excavator from China
Date: January 2026
Prepared by: SEA LION International – Senior Engineering Division
Executive Summary
This report evaluates three primary maritime shipping methods—Roll-on/Roll-off (RO-RO), Bulk Cargo, and Flat Rack—for the international export of the JD 350 Excavator from manufacturing hubs in China (e.g., Qingdao, Shanghai, Nansha). The analysis focuses on cost-efficiency, equipment protection, transit time, handling complexity, and corrosion resistance. Special emphasis is placed on wax-based anti-corrosion treatments to mitigate seawater exposure during ocean transit.
Equipment Overview: JD 350 Excavator
| Parameter | Specification |
|---|---|
| Operating Weight | 35,200 kg |
| Overall Dimensions (L×W×H) | 10.2 m × 3.1 m × 3.3 m |
| Undercarriage Width | 3,100 mm |
| Engine Type | Tier 4 Final Diesel |
| Fuel Capacity | 380 L |
| Transport Configuration | Lowered boom, blade retracted, no disassembly required for RO-RO/Flat Rack |
Shipping Method Comparison
| Criteria | RO-RO | Bulk Cargo | Flat Rack |
|---|---|---|---|
| Loading Mechanism | Self-propelled or towed on/off vessel | Craned into hold, stowed with other bulk materials | Secured onto open flat rack, lifted by ship’s gear or port crane |
| Cargo Compatibility | High – ideal for tracked equipment | Low – high risk of damage due to shifting and contact | High – dedicated space, minimal contact |
| Transit Time | Short (direct port-to-port, faster turnaround) | Moderate (subject to port congestion and stowage delays) | Moderate to Long (depends on container vessel schedule) |
| Port Infrastructure | Requires RO-RO-capable terminals | Widely available globally | Requires container terminal with heavy-lift capability |
| Cost (USD/unit, Shanghai → Rotterdam) | $7,200 – $8,500 | $5,800 – $7,000 | $9,500 – $11,000 |
| Handling Risk | Low (minimal lifting) | High (multiple crane lifts, potential impact) | Medium (lifting required, but controlled lashing) |
| Weather Exposure | Partial (exposed on deck) | Low (below deck, controlled environment) | High (fully exposed, requires protective measures) |
| Customs Clearance | Streamlined (standardized process) | Standard | Standard, but may require container inspection |
| Best Suited For | High-volume fleet shipments to developed ports | Low-cost routes with compatible bulk vessels | Oversized units, remote destinations without RO-RO access |
Corrosion Protection Protocol: Wax Spraying System
Seawater exposure during ocean transit presents a significant corrosion risk to excavator undercarriages, hydraulic components, and structural joints. SEA LION International mandates the following anti-corrosion procedure for all JD 350 units prior to shipment:
Wax-Based Protection Specifications
| Parameter | Requirement |
|---|---|
| Wax Type | Solvent-based, hydrophobic corrosion-inhibiting compound (CIC) |
| Application Method | High-pressure spray (15–20 bar) |
| Coverage Areas | Undercarriage, track links, rollers, idlers, boom/turret joints, radiator fins, electrical enclosures (sealed) |
| Film Thickness | 25–35 µm (measured via wet film gauge) |
| Drying Time | 4–6 hours at 25°C ambient |
| Protection Duration | Up to 6 months in marine environments |
| Removal | Biodegradable citrus-based cleaner post-delivery |
Note: Wax treatment is mandatory for Flat Rack and RO-RO shipments due to deck exposure. Recommended for Bulk Cargo if transit exceeds 30 days.
Risk Assessment & Recommendations
| Risk Factor | RO-RO | Bulk Cargo | Flat Rack |
|---|---|---|---|
| Saltwater Corrosion | Medium | Low | High (mitigated by wax spray) |
| Physical Impact | Low | High | Medium |
| Theft/Vandalism | Low | Medium | High (exposed deck cargo) |
| Weather Damage (Storms) | Medium | Low | High |
| Lashing Integrity | High | Variable | High (if ISO-compliant twist locks used) |
Recommended Use Cases
- RO-RO: Preferred for fleet deliveries to Europe, Middle East, and Southeast Asia with RO-RO port access. Optimal balance of cost, speed, and safety.
- Bulk Cargo: Suitable for budget-sensitive, single-unit shipments to regions with limited container infrastructure. Not recommended for high-value or corrosion-sensitive consignments without additional crating.
- Flat Rack: Best for oversized configurations or destinations lacking RO-RO facilities (e.g., West Africa, Pacific Islands). Requires full wax protection and marine-grade lashing (4-point minimum).
Compliance & Documentation
All shipments must comply with:
– IMO International Convention for Safe Containers (CSC)
– IMDG Code (for fuel residue and hydraulic fluid)
– ISPM 15 (if wooden dunnage used)
– Bill of Lading, Export Declaration, and Pre-shipment Inspection (PSI) as required
Conclusion
For the export of JD 350 Excavators from China, RO-RO shipping offers the optimal combination of cost, speed, and equipment integrity for fleet managers and construction logistics planners. Flat Rack is a viable alternative for remote destinations, provided wax-based anti-corrosion protocols are strictly followed. Bulk Cargo is cost-competitive but poses unacceptable risk to equipment condition and should be used only in exceptional circumstances.
SEA LION International recommends integrating wax spraying into pre-shipment standard operating procedures across all modalities to ensure long-term equipment reliability post-delivery.
End of Report
Get a Quote for Jd 350 Excavator
SEA LION International Trade Co., Ltd – Authorized Heavy Truck Exporter (Since 2008).
👤 Contact Person: Mr. Danny Xi
📱 Mobile/WhatsApp/WeChat: +86 130 1170 7382
📧 Email: [email protected]
