Articulated Dump Trucks for Sale

Buy and sell used and unused Articulated Dump Trucks at IronPlanet.

Articulated Dump Trucks feature a two part body design. The cab section articulates from the dump body; thus steering the unit and allowing the wheels to follow on more of an overlapping path than your typical steering design would. While traditional Dump Trucks are better for hauling over-the-road and long distances, Articulated Dump Trucks are typically used for jobs that require moving large loads over rough terrain. Browse various models from top manufacturers including Cat Articulated Dump Trucks, John Deere Articulated Dump Trucks, Komatsu Articulated Dump Trucks, Volvo Articulated Dump Trucks and others.

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Find IronPlanet and Ritchie Bros. Auctioneers' current Articulated Dump Truck inventory below, and see what Articulated Dump Trucks are for sale around you.

Types of Off-Road Mining Dump Trucks

Off-road mining dump trucks are essential workhorses in the mining and construction industries, designed to transport massive quantities of materials across challenging terrains. These vehicles are engineered for durability, performance, and efficiency in extreme environments. Understanding the different types available can help operators select the most suitable equipment for their specific needs.

Articulated Dump Trucks (ADT)

Articulated dump trucks feature a two-part chassis connected by a central hinge, allowing the vehicle to articulate or bend in the middle during turns. This design enables superior maneuverability on rough, uneven terrain and steep slopes.

Advantages

• Exceptional off-road mobility
• High ground clearance
• Excellent traction due to large, aggressive tires
• Well-suited for variable terrain conditions

Limitations

• Lower payload capacity compared to rigid trucks
• Slower travel speeds
• Higher maintenance costs due to complex steering systems

Best for: Smaller mining operations, construction sites, and areas with poor road conditions

Rigid Dump Trucks (RDT)

Rigid dump trucks have a single, non-articulating frame that provides structural rigidity and allows for higher payloads. These trucks are typically used in large-scale mining operations where haul roads are well-maintained and long-distance transportation is required.

Advantages

• High payload capacities (often exceeding 100 tons)
• Efficient for long-haul applications
• Faster travel speeds on smooth surfaces
• Widely used in open-pit mines

Limitations

• Poor maneuverability on tight or uneven terrain
• Require well-constructed haul roads
• Limited use in confined spaces

Best for: Large-scale mining operations, open-pit mines, and long-distance hauling

Underground Mining Trucks

These specialized dump trucks are built to operate in underground mining environments where space is limited and ventilation requirements are strict. They often incorporate compact designs and low-emission engines to comply with safety standards.

Advantages

• Compact size for navigating narrow tunnels
• Low emissions and noise levels
• Designed for efficient material handling in enclosed spaces
• Versatile in various underground configurations

Limitations

• Smaller payload capacities than surface trucks
• Specialized maintenance requirements
• Higher cost per ton of payload

Best for: Underground mines, tunneling projects, and confined working environments

Electric Dump Trucks

As sustainability becomes increasingly important in industrial operations, electric dump trucks offer an eco-friendly alternative to traditional diesel-powered models. These vehicles utilize advanced battery technology to deliver high performance with zero tailpipe emissions.

Advantages

• Zero emissions operation
• Reduced noise pollution
• Lower operating and fuel costs over time
• Environmentally responsible option

Limitations

• High initial purchase cost
• Charging infrastructure requirements
• Range limitations depending on battery capacity

Best for: Sustainable mining operations, urban construction zones, and environmentally sensitive areas

Low-Profile Dump Trucks

Engineered specifically for underground mining, these trucks feature reduced height profiles to accommodate low-clearance tunnels while maintaining substantial load-carrying capabilities. Their wide stance enhances stability in tight, uneven conditions.

Advantages

• Optimized for low-ceiling environments
• Stable platform for heavy loads
• Compact turning radius
• Effective in restricted vertical spaces

Limitations

• Very limited headroom for operators
• Less versatile outside of underground settings
• May require custom modifications

Best for: Tunnel construction, subterranean mining, and low-clearance material transport

Type Maneuverability Payload Capacity Operating Environment Key Features Articulated Dump Truck (ADT) Excellent Medium Rough, uneven terrain Hinged frame, large tires, off-road capability Rigid Dump Truck (RDT) Fair Very High Open-pit mines, maintained roads Single-frame design, fast haul speeds Underground Mining Truck Good Low-Medium Confined mine shafts Compact design, low emissions Electric Dump Truck Good Medium-High Urban or green sites Zero emissions, quiet operation Low-Profile Dump Truck Good Medium Low-clearance tunnels Short height, wide base

Expert Tip: When selecting a dump truck for mining operations, consider not only the payload and terrain but also long-term maintenance costs, operator comfort, and environmental impact—especially if operating near residential areas or under strict emission regulations.

Van Usage and Legal Compliance FAQ

Q1: Can I convert a 2-tonne van to carry more than 2 tonnes?

A1: No, it is both illegal and unsafe to modify a vehicle in order to exceed its manufacturer-rated carrying capacity. The 2-tonne load limit of the van includes both the weight of the cargo and any additional equipment or accessories installed on the vehicle. Overloading can lead to:

• Structural damage to the chassis and suspension system
• Increased risk of tire blowouts and brake failure
• Potential legal penalties, including fines and points on the driver's license
• Invalidation of insurance coverage in the event of an accident

It is essential to adhere strictly to the vehicle’s Gross Vehicle Weight Rating (GVWR) as defined by the manufacturer and registered with the DVLA.

Q2: What is the maximum height for a delivery van?

A2: In the UK, the legal maximum height for a delivery van or any commercial vehicle on public roads is 4.5 meters (approximately 14 feet 9 inches). However, most standard delivery vans have a height between 2.4 and 3.4 meters. When considering height:

• Always be aware of low bridges, tunnels, and overhead obstructions
• Ensure your van’s height is clearly marked if it exceeds 2.9 meters
• Take extra precautions when loading roof racks or carrying tall cargo

Exceeding the 4.5-meter limit is illegal and could result in enforcement action, especially in urban areas with infrastructure restrictions.

Q3: Can a van be driven with the side-loading door open?

A3: No, it is strictly prohibited to drive a van with the side-loading door open. Doing so poses significant safety risks, including:

• Possible injury from the door swinging open further during sudden maneuvers
• Risk of cargo shifting or falling out, endangering other road users
• Reduced structural integrity in the event of a collision

All doors must be securely closed and locked before driving. If you need access to the cargo area while en route, consider stopping at a safe location or using a vehicle specifically designed for such operations, like certain types of flatbed trucks or vehicles with rear access only.

If you want to learn more, please visit our website 90 Ton Mining Dump Truck.

Q4: Are delivery vans allowed to park in disabled spaces?

A4: Delivery vans are not permitted to park in disabled parking bays unless they hold a valid Blue Badge (or equivalent accessibility permit). Disabled parking spaces are legally reserved for individuals with disabilities who display the appropriate authorization. Illegally parking a van in these spaces may result in:

• Fines issued by local authorities or police
• Towing of the vehicle
• Public backlash and reputational damage for businesses

If you're making deliveries in urban areas, always look for designated loading zones or short-term parking areas that are appropriately marked and accessible for commercial vehicles.

How to Choose a Sprinter Van for Sale

Selecting the right Mercedes-Benz Sprinter van requires careful evaluation of multiple factors to ensure it meets your specific needs, whether for commercial use, personal adventures, or conversion projects. Understanding key considerations will help you make an informed decision that aligns with your lifestyle, business requirements, and budget.

Define Your Purpose

The primary purpose of your Sprinter van should guide every other purchasing decision. These versatile vehicles serve a wide range of applications, from cargo transportation to mobile offices and adventure vans. Identifying how you'll use the vehicle ensures you select the most suitable configuration and features.

• Cargo transport: Prioritize interior dimensions, payload capacity, and ease of loading/unloading
• Commercial use: Consider durability, maintenance schedules, and branding opportunities
• Living/Adventure van: Focus on headroom, potential for customization, and auxiliary systems compatibility
• Passenger transport: Look for seating configurations, safety features, and comfort amenities

Pro Tip: Create a list of essential functions and nice-to-have features before beginning your search

Understand Size Options

Sprinter vans offer multiple size configurations to accommodate different needs. The combination of wheelbase lengths (144", 170") and body extensions creates several practical options for cargo and passenger applications.

• 144" wheelbase: Compact maneuverability ideal for city driving and parking
• 170" wheelbase: Balanced option offering increased cargo space while maintaining reasonable handling
• Extended 170" models: Maximum cargo capacity for businesses requiring large volume transport
• High cube variants: Additional height provides more vertical storage space

Measurement tip: Check overall vehicle dimensions to ensure garage clearance and parking suitability

Roof Height Considerations

Sprinter vans come in three distinct roof height options, each offering unique advantages depending on your intended use. This choice significantly impacts both interior functionality and exterior vehicle dynamics.

• Low roof (L): Better fuel efficiency and easier parking access, but limited interior headroom
• Standard roof (M): Good compromise between headroom and vehicle height
• High roof (H): Full standing height for comfortable conversions and maximum cargo stacking
• Super high roof (optional conversions): Custom modifications for specialized uses

Important: Higher roofs increase vehicle height, affecting garage clearance and wind resistance

Fuel Type Selection

The choice between diesel and gasoline engines significantly impacts operating costs, performance characteristics, and long-term value. Each powerplant offers distinct advantages depending on your usage patterns.

• Diesel engines: Superior torque, better fuel economy over 15,000+ miles/year, longer engine life
• Gasoline engines: Lower initial cost, smoother operation, better cold-weather performance
• Hybrid/electric options: Emerging technology offering reduced emissions for urban operations
• Fuel economy ratings: Compare EPA estimates for city/highway driving scenarios

Cost analysis: Diesel typically becomes more economical after 15,000 annual miles driven

Cargo Space Optimization

Understanding actual usable cargo dimensions helps maximize load capacity and efficiency. Sprinter vans offer exceptional cubic footage compared to competitors, but proper planning ensures you utilize every inch effectively.

• Measure standard pallet sizes against interior dimensions
• Consider door opening configurations (swing-out vs sliding)
• Evaluate shelving and racking installation possibilities
• Check floor strength ratings for heavy equipment transport

Capacity note: High roof models can accommodate double-stacked Euro pallets vertically

Budget Planning

Establishing a comprehensive budget goes beyond the purchase price. Factoring in all ownership costs ensures you get the best value without unexpected financial strain over the vehicle's lifespan.

• Purchase price ranges: $35,000 - $65,000+ depending on configuration
• Maintenance schedule: Regular service intervals and dealership vs independent shop costs
• Insurance premiums: Commercial vs private coverage differences
• Fuel consumption: Calculate annual fuel costs based on expected mileage
• Depreciation rates: New vs used vehicle value retention curves

Financing advice: Explore manufacturer incentives and commercial fleet programs

Buying Strategy: When evaluating pre-owned Sprinters, pay particular attention to maintenance records and usage history. A well-maintained 100,000-mile van could be a better investment than a neglected lower-mileage model. Consider having a trusted mechanic perform a pre-purchase inspection, especially for older units.

Configuration Ideal Use Case Estimated Cargo Volume Average Fuel Economy 144" WB Low Roof Urban delivery/city use 310 cu.ft. 19-22 MPG 170" WB Standard Roof Medium-distance transport 350 cu.ft. 17-20 MPG 170" WB High Roof Mobile workshops/conversions 380 cu.ft. 16-19 MPG Extended 170" WB High Roof Heavy cargo/fleet operations 480 cu.ft. 15-18 MPG

Comprehensive DIY Guide for Replacing Components on Off-Road Mining Dump Trucks

Replacing components on off-road mining dump trucks is a demanding but rewarding task that can extend the life of heavy-duty equipment and reduce long-term maintenance costs. These vehicles operate in extreme environments, often carrying massive payloads over rough terrain, which puts significant stress on their mechanical systems. Whether you're replacing a transmission, engine, hydraulic pump, or suspension component, this detailed guide will walk you through the essential steps to safely and effectively complete the job.

Safety Warning: Off-road mining dump trucks are large, heavy machines with complex systems. Always ensure the vehicle is properly supported, power sources are disconnected, and all fluids are drained before starting work. Use appropriate safety gear including gloves, goggles, and steel-toe boots.

Key Considerations Before Starting

Before beginning any replacement project, it's crucial to understand the scope of the task. Mining dump trucks come in various sizes and configurations, so identifying your specific model and the exact part needing replacement is essential. Below are some critical factors to consider:

• Model Compatibility: Ensure the replacement component matches your truck’s make, model, and year. Cross-reference part numbers and specifications with official documentation.
• Tools and Equipment: Gather necessary tools such as wrenches, sockets, jack stands, and lifting devices. Some jobs may require specialized tools like torque wrenches or alignment gauges.
• Work Environment: Choose a level, well-lit workspace with adequate ventilation and enough clearance for maneuvering large parts.
• Time Commitment: Major replacements can take several hours to multiple days depending on complexity. Plan accordingly to avoid rushing the process.

Component Type Estimated Time Difficulty Level Special Tools Required Tires/Wheels 2–4 hours Moderate Bead breaker, impact wrench Hydraulic Pump 4–8 hours High Hydraulic pressure tester, seal kit Engine 1–2 days Very High Engine hoist, torque wrench set Brake System 6–10 hours High Brake caliper tool, bleed kit

Step-by-Step Replacement Procedure

1. Identify the Faulty Component
   • Diagnose the issue using service codes, visual inspection, or performance tests.
   • Refer to the operator’s manual or online resources to confirm the correct replacement part.
   • Order OEM (Original Equipment Manufacturer) or high-quality aftermarket parts when possible.
2. Gather Tools and Prepare Workspace
   • Clear the area around the truck and ensure proper lighting and ventilation.
   • Set up jack stands or secure the truck on blocks if undercarriage access is needed.
   • Organize tools and materials for easy access during the procedure.
3. Follow Safety Precautions
   • Turn off the ignition and disconnect the battery to prevent accidental starts.
   • Chock the wheels and engage the parking brake for added stability.
   • If working with hydraulics, depressurize the system before disassembly.
4. Disassemble and Remove Old Component
   • Begin by removing any covers, guards, or adjacent components blocking access.
   • Label and organize bolts, washers, and connectors for easier reassembly.
   • Take photos at each stage to document wiring, hose routing, or mounting positions.
5. Clean and Inspect Mounting Area
   • Use degreaser and a wire brush to clean the surface where the new component will be installed.
   • Check for signs of wear, cracks, or corrosion that could affect installation integrity.
   • Replace any worn bushings, seals, or gaskets while the system is open.
6. Prepare New Component for Installation
   • Inspect the new part for damage or defects before installation.
   • Lubricate bearings, joints, or moving parts as specified in the manual.
   • Compare dimensions and mounting points to ensure compatibility with your truck.
7. Install the New Component
   • Mount the component carefully, ensuring proper alignment and fit.
   • Secure fasteners according to manufacturer torque specifications.
   • Double-check connections for electrical, hydraulic, or air lines.
8. Test and Verify Functionality
   • Reconnect the battery and check for warning lights or error codes.
   • Start the engine and monitor for leaks, unusual noises, or vibrations.
   • Conduct a test drive in a controlled environment before returning to full operation.

Pro Tip: When working on older mining dump trucks, keep a dedicated notebook or digital log of all removed parts, torque specs, and notes from each repair session. This will save time during future maintenance and help track recurring issues.

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Common Challenges and How to Avoid Them

• Overlooking Torque Specifications: Always use a torque wrench for critical bolts to avoid stripping threads or damaging components.
• Improper Lifting Techniques: Use an engine hoist or lift gate for heavy components—never attempt to lift alone.
• Missing Electrical Connections: Double-check all plugs and relays after reassembly to prevent system malfunctions.
• Fluid Contamination: Replace filters and flush systems when changing major components like transmissions or hydraulic pumps.