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Synergy Wear Parts
Premium Wear Parts & Wear Protection Solutions
High-performance wear-resistant components engineered to increase equipment life, reduce downtime, and lower maintenance costs for Mining, Cement, Steel, Power & Material Handling Industries.
58–65
HRC Hardness — CCO Plates
5+
Wear-Resistant Materials
4
Major Industries Served
100%
Custom Manufacturing Available
What Are Wear Parts?
Engineered for the Most
Engineered for the Most
Demanding Conditions
Wear parts are components exposed to abrasion, erosion, impact, and material flow that gradually deteriorate during operation. Synergy supplies wear-resistant parts designed to extend service life in the most demanding industrial environments.
From forestry land-clearing and earth-moving equipment to heavy mining and cement plants — our range covers heat-treated tool steel, tungsten carbide components, CCO plates, bimetallic assemblies, and wear-resistant castings.
- Custom Wear Parts manufactured from drawings or samples
- Hardfacing Solutions for extended service life
- CCO Wear Plates up to 65 HRC
- Bimetallic Wear Components — pipes, elbows, spools
- OEM Replacement Parts with full material traceability
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Wear Parts Overview
Mining
Cement
Steel
Power Plants
Material Handling
Our Product Range
Types of Wear Parts
Comprehensive wear-resistant solutions for every application — from chute liners and ball mill components to CCO plates and hardfaced assemblies.
Wear Liners
Wear Liners
Chute, Hopper & Ball Mill Liners
Protects chutes, hoppers, transfer points, ball mills, and bunkers from abrasive material flow. Available in CCO overlay, rubber-backed, and ceramic-composite options.
CCO Wear Plates
CCO Wear Plates
Chromium Carbide Overlay Plates
58–65 HRC hardness. Ideal for extreme abrasion in chutes, hoppers, and custom fabricated wear assemblies. Available as flat plates or custom-formed weldments.
Bimetallic Parts
Bimetallic Wear Parts
Pipes, Elbows, Spools & Transition Pieces
Bimetallic construction combines a tough outer shell with a wear-resistant inner lining for slurry lines, pneumatic conveying systems, and high-velocity particle flows.
Wear Castings
Wear-Resistant Castings
High Chrome, Ni-Hard & Manganese Steel
Precision castings for crusher liners, mantles, bowl liners, mill liners, and grinding rolls. Grades selected to match specific wear mechanisms — abrasion, impact, or grinding.
Hardfacing
Hardfaced Components
Screw Conveyors, Fan Blades & Rollers
Weld-deposited hardfacing on screw conveyors, fan blades, rollers, and mixer blades extends service life 3–5× compared to plain steel in abrasive environments.
Forestry Parts
Forestry & Land Clearing
Saw Teeth, Mulcher Knives & Undercarriage
Heat-treated tool steel and tungsten carbide components for saws, mulchers, and tracked undercarriages. Engineered to withstand high-impact, abrasive land-clearing conditions.
Wear Liners
Chute Liners, Hopper Liners & Ball Mill Liners
Wear liners protect equipment surfaces from the continuous abrasive action of bulk materials in motion. Synergy supplies liners for every contact point in the material handling chain.
- Chute liners for transfer stations and loading chutes
- Hopper liners — flat, angled, and curved profiles
- Transfer point liners to protect impact zones
- Ball mill liners — lifter bars and shell plates
- Bunker liners for coal and ore storage
Wear Liners
Chute Liner
Chute Liner
Hopper Liner
Hopper Liner
Ball Mill Liner
Ball Mill Liner
Bunker Liner
Bunker Liner
CCO Wear Plates
Chromium Carbide Overlay — Chute Application
Surface Detail
Custom Fabrication
Formed Assembly
Chromium Carbide Overlay — Extreme Abrasion Resistance
Chromium Carbide Overlay (CCO) plates deliver 58–65 HRC hardness through a chromium-rich weld deposit over a mild steel substrate — providing the toughness of steel combined with outstanding abrasion resistance.
CCO Plate — Full Width Application
Chromium Carbide Overlay — Chute Application
CCO Detail
Surface Detail
CCO Fabrication
Custom Fabrication
CCO Formed
Formed Assembly
Hardness
58–65 HRC
Chromium Carbide Overlay
Applications
Chutes · Hoppers · Liners · Transfer Points · Custom Assemblies
Wear Mechanism
Extreme abrasive wear — sliding hard particles and high-velocity material flow
Bimetallic Pipe
Bimetallic Wear Parts
Pipes, Elbows, Spools & Transition Pieces
Bimetallic wear components combine the structural strength of a carbon steel outer shell with a precision-cast wear-resistant inner lining — delivering maximum service life under erosive wear conditions.
- Bimetallic pipes for slurry and pneumatic conveying
- Elbows and bends — the highest-wear sections of any line
- Spools and transition pieces for system integration
- Available in High Chrome Iron and Ni-Hard inner linings
Bimetallic Pipe
Bimetallic Pipe
Elbow
Wear Elbow
Transition Piece
Transition Piece
Wear-Resistant Castings
High Chrome Iron
Ni-Hard Casting
Manganese Steel
Hardfaced Component
High Chrome, Ni-Hard & Manganese Steel Castings
Synergy supplies precision wear castings across all major grades — matched to the specific wear mechanism (abrasion, impact, or grinding) present in your application.
High Chrome
High Chrome Iron
Ni-Hard
Ni-Hard Casting
Manganese
Manganese Steel
Hardfaced
Hardfaced Component
High Chrome Castings
Maximum Abrasion Resistance
Ideal for mining slurry pumps, mill liners, and impellers where abrasive wear is the primary failure mode. Available in 15–28% Cr grades.
Ni-Hard Castings
Grinding Applications
Preferred in cement and pulverizer applications where materials are crushed and ground between surfaces under sustained contact pressure.
Manganese Steel Castings
High-Impact Applications
Work-hardens under impact — the material of choice for crusher jaws, liners, and excavator bucket teeth subjected to heavy repeated shock loads.
Forestry & Land Clearing
Saw Disc Assembly
Mulcher Head with Carbide Knives
Saw Teeth
Mulcher Knives
Drive Sprocket
Track Shoes
Saw Teeth, Mulcher Knives & Undercarriage Parts
Synergy supplies premium-grade, durable wear parts for heavy-duty forestry land-clearing equipment and earth-moving machinery — specializing in heat-treated tool steel and tungsten carbide components.
Saw Disc Assembly
Saw Disc Assembly
Mulcher Head
Mulcher Head with Carbide Knives
Saw Teeth
Saw Teeth
Mulcher Knives
Mulcher Knives
Drive Sprocket
Drive Sprocket
Track Shoes
Track Shoes
Saw Teeth — Two Styles
Heat-treated tool steel for clean cuts in standard conditions. Carbide-tipped teeth for maximum abrasion resistance in rocky or sandy soils.
Mulcher Components
- Planer/chisel knife tips for wood slicing
- Carbide faces for ground contact
- Internal wear liners — bolted or welded hardfaced plates
- Anvil protectors for rotor tool holders
Undercarriage Parts
- Induction-hardened drive sprockets
- Single/double-bar track shoes (grousers)
- Sealed rollers that prevent grit entry
- Idlers for severe terrain applications
Wear Mechanisms
Understanding How Wear Occurs
Selecting the right wear part starts with identifying the dominant wear mechanism. Synergy's engineering team evaluates your application and recommends the optimal material and design.
Abrasive Wear
Caused by the sliding of hard particles across a surface. Most common in chutes, hoppers, and conveyor systems handling bulk abrasives like ore, sand, and gravel.
→ CCO Plates · High Chrome Castings · AR400/AR500
Erosive Wear
Caused by high-velocity particle flow striking a surface at an angle. Dominant in slurry pipelines, pump impellers, cyclones, and pneumatic conveying elbows.
→ Bimetallic Pipes · High Chrome Iron · CCO Elbows
Corrosive Wear
A combination of chemical corrosion and mechanical abrasion. Occurs in wet processing, acidic slurries, and marine environments. Requires chemically resistant wear alloys.
→ High Chrome Iron · Rubber-Lined Components
Grinding Wear
Occurs when materials are crushed and ground between two surfaces under sustained pressure. Typical in ball mills, pulverizers, and roller presses.
→ Ball Mill Liners · Ni-Hard · Grinding Media
Impact & Gouging Wear
Occurs under high loads and repeated impact that gouge and deform the wear surface. Predominant in crushers, hammers, excavator bucket teeth, and impactors. Requires materials that work-harden or absorb energy without fracture.
→ Manganese Steel · AR500 · High Chrome Castings · Hardfacing
Materials
Wear-Resistant Materials Reference
Material selection is the foundation of effective wear protection. The table below provides a reference guide — our engineering team will confirm the correct grade for your specific application conditions.
| Material | Wear Type | Hardness | Key Applications |
|---|---|---|---|
| Chromium Carbide Overlay (CCO) | Extreme Abrasion | 58–65 HRC | Chutes, Hoppers, Liners, Transfer Points |
| AR400 / AR500 Steel | Mixed Wear Conditions | 40–53 HRC | Material Handling, Tooth Points, Adaptors |
| High Chrome Iron | High Abrasion + Erosion | 58–65 HRC | Mining, Slurry Pumps, Mill Liners |
| Ni-Hard | Grinding Applications | 550–700 HB | Cement, Pulverisers, Grinding Rolls |
| Manganese Steel (Hadfield) | High Impact + Gouging | 200–550 HB | Crusher Liners, Jaws, Bucket Teeth |
| Tungsten Carbide | Extreme Abrasion + Impact | 70–90 HRA | Saw Teeth, Mulcher Tips, Drill Bits |
| Heat-Treated Tool Steel | Abrasion + Impact | 48–58 HRC | Forestry Teeth, Cutting Edges, Blades |
Applications
Industry-Specific Wear Part Solutions
Synergy supplies application-specific wear parts matched to the unique conditions of each industry — from abrasive ore handling to high-temperature cement production.
Mining
Mining Industry
- Crusher liners, mantles, bowl liners
- Bucket teeth and adaptors
- Chute and hopper liners
- Slurry pump components
Cement
Cement Industry
- Mill liners and lifter bars
- Grinding rolls and diaphragm plates
- Pulverizer components
- Raw mill and clinker handling parts
Steel
Steel Industry
- Chute liners for ore handling
- Transfer point wear plates
- Material handling components
- Sinter plant wear parts
Power Plants
Power Plants
- Coal handling wear parts
- Ash handling system components
- Slurry system wear liners
- Pulverizer mill rings and bowls
Custom Manufacturing
Engineering Review
Precision Manufacturing
Quality Inspection
Custom Wear Parts from Your Drawings
Synergy specializes in manufacturing custom wear parts from customer drawings, CAD models, samples, or reverse-engineered components — from prototype through high-volume production.
01
Engineering Evaluation
Application requirements assessed by our engineering team to recommend the optimal material and manufacturing process for maximum service life.
02
Drawing & CAD Review
We accept customer drawings, CAD models (STEP/IGS), physical samples, or reverse-engineered components as the basis for manufacturing.
03
Material Selection
Grade and hardness specified to match the dominant wear mechanism — abrasion, erosion, impact, or grinding — in your specific operating conditions.
04
Prototype Development
Prototype parts manufactured and tested before volume production commitment — de-risking the introduction of new wear-resistant solutions.
05
Quality Assurance
Strict dimensional accuracy, material traceability, and hardness verification at every production stage. Test reports and certifications supplied on request.
06
Volume Production
Low-volume runs to high-volume production — with consistent quality standards maintained across every batch through process-controlled manufacturing.
Engineering Drawing
Engineering Review
Manufacturing
Precision Manufacturing
Quality Check
Quality Inspection
FAQ
Frequently Asked Questions
Common questions about Synergy's wear part capabilities, product range, and custom manufacturing services.
What types of cutting teeth do you supply for high-speed saw discs?
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We offer high-impact teeth in two styles: heat-treated tool steel for clean cuts in standard conditions, and carbide-tipped teeth for maximum abrasion resistance in rocky or sandy soils. Both styles are available in multiple profiles to match your saw disc configuration.
Do you provide replacement hardware for saw assemblies?
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Yes. We supply high-tensile shank bolts designed to securely lock teeth under extreme centrifugal forces, alongside heavy-duty replacement steel saw discs built to withstand severe bending loads during operation.
What wear solutions do you offer for land clearing and mulching heads?
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We provide high-durability mulcher components including:
- Mulcher Teeth: Planer/chisel knife tips for wood slicing or carbide faces for ground contact
- Internal Wear Liners: Bolted or welded hardfaced plates that protect housings from flying debris
- Anvil Protectors: Specialized shield blocks that protect the rotor's tool holders from impact damage
What heavy equipment undercarriage wear parts are available?
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To extend tracked machine life in severe terrain, we supply:
- Induction-hardened drive sprockets
- High-traction single/double-bar track shoes (grousers)
- Sealed rollers and idlers that prevent grit entry in abrasive conditions
Can Synergy manufacture wear parts from customer drawings or samples?
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Yes. Synergy specializes in the manufacturing of custom wear parts based on customer drawings, CAD models, samples, or reverse-engineered components. Our engineering team evaluates the application requirements and recommends suitable materials and manufacturing processes to maximize service life and performance. We support prototype development, low-volume production, and high-volume manufacturing while maintaining strict quality standards, dimensional accuracy, and material traceability.
How do I select the right wear material for my application?
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Material selection depends on the dominant wear mechanism — abrasion, erosion, impact, or grinding. Share details about your equipment type, material being handled, operating speeds, and current wear life, and our engineering team will recommend the optimal material grade, hardness, and form (plate, casting, overlay, or hardfacing) for your specific conditions.
Ready to Extend Your Equipment Life?
Contact Synergy's engineering team for a wear analysis, material recommendation, or custom wear part quotation. We respond within 24 hours.
