Diamond Grinding Wheels for Silicon & SiC Wafer Thinning

Wafer backside thinning is an indispensable process in semiconductor manufacturing, which directly impacts chip yield, device performance and service life. As the core consumable for this procedure, diamond thinning wheels are specially developed for machining hard and brittle materials such as monocrystalline silicon (Si) and silicon carbide (SiC).

Monocrystalline silicon serves as the fundamental material for traditional integrated circuits, memory chips and IGBTs. Silicon carbide, the core substrate of third-generation semiconductors, empowers new energy vehicles, 5G base stations, photovoltaic energy storage and other high-end industries.

This article elaborates on material characteristics, wheel selection criteria, machining processes and quality control of diamond thinning wheels for Si and SiC wafers. Meanwhile, we introduce professional wafer thinning solutions from Moresuperhard, delivering high-efficiency, low-damage and cost-effective products for global semiconductor manufacturers.

Material Differences Between Silicon and Silicon Carbide

The physical properties of Si and SiC determine the overall selection of grinding wheels and machining parameters.

Monocrystalline Silicon (Si)

Mohs hardness: 7, medium brittleness

Original wafer thickness: approx. 775 μm, target thinning thickness: 50–100 μm

Main applications: Logic chips, memory chips, IGBTs and conventional semiconductor devices

Core requirements: High productivity, minimal subsurface damage and low operational cost

Silicon Carbide (SiC)

Mohs hardness: 9.5 (second only to diamond), extremely high brittleness and thermal conductivity (~490 W/m·K)

Original wafer thickness: approx. 725 μm, target thinning thickness: 50–200 μm

Main applications: Power devices for new energy vehicles, 5G RF components and photovoltaic inverters</p

Core requirements: Crack-free machining, low thermal damage, superior surface finish and precise form accuracy

SiC is far more difficult to machine than silicon, requiring tailored grinding wheels and strict process control throughout production.

Design & Selection of Diamond Thinning Wheels

Diamond abrasives are the only choice for efficient machining of ultra-hard SiC materials. The performance of thinning wheels depends on abrasive grain size, bond system, abrasive concentration, porosity and base material.

Abrasive Grain Size & Surface Roughness

Grain size distinguishes rough grinding and fine grinding processes, and controls material removal rate and surface quality.

Silicon Wafer Machining

Rough grinding: #1000–#2000, grain size 10–20 μm, Ra 10–20 nm

Fine grinding: #4000–#8000, grain size 2–5 μm, Ra 2–5 nm

SiC Wafer Machining

Rough grinding: #2000, grain size 8–15 μm, Ra 10–15 nm (to remove residual damage from slicing)

Fine grinding: #8000–#30000, grain size 0.5–2 μm, Ra 0.5–2 nm, TTV ＜ 2 μm. The finished wafers can go directly to polishing.

Grinding Wheel Bond Systems

Three mainstream bond types are widely applied in semiconductor thinning wheels, among which vitrified bond is the most popular for domestic and global manufacturers.
Vitrified Bond (Mainstream)
High porosity, excellent self-sharpening performance and moderate thermal conductivity. Suitable for both rough and fine grinding of Si and SiC wafers.
Resin Bond
Good flexibility and outstanding surface finishing effect. Ideal for high-precision fine grinding of SiC wafers, with relatively shorter service life.
Metal Bond
High mechanical strength, long lifespan and superior heat dissipation. Perfect for heavy stock removal in SiC rough grinding and post-packaging machining. Regular dressing is required due to relatively poor self-sharpening.

Key Grinding Wheel Parameters

Abrasive Concentration: 75%–100% for silicon wheels; 100%–150% for SiC wheels (higher concentration for ultra-hard materials).
Porosity: 30%–50%. High porosity ensures efficient chip removal and heat dissipation, effectively reducing thermal damage and cracks.
Base Body: Made of aluminum alloy or stainless steel with high rigidity and low vibration. Fully compatible with mainstream thinning machines such as Disco and Tokyo Seimitsu.

Standard Machining Processes for Si & SiC Wafers

Below are mass-production process parameters for 8–12 inch semiconductor wafers.

Monocrystalline Silicon Wafer Thinning

Applicable equipment: 8–12 inch wafer thinning machines (e.g. Disco DFG800)

• Rough Grinding: #2000 wheel, spindle speed 2000–4000 r/min, grinding pressure 10–15 N. Material removal: 600–700 μm, subsurface damage ≤ 5 μm.
• Fine Grinding: #8000 wheel, spindle speed 3000–4000 r/min, grinding pressure 5–8 N. Material removal: 20–50 μm. Finished Ra ＜ 5 nm, TTV ＜ 3 μm.

SiC Wafer Thinning

SiC is prone to chipping, thermal stress cracks and deep subsurface damage, which calls for stricter process control.

• Rough Grinding: #2000 vitrified bond wheel, spindle speed 2500 r/min, grinding pressure 20–30 N. Edge chipping controlled within 8 μm.
• Fine Grinding: #30000 composite wheel, spindle speed 3000–4000 r/min, grinding pressure 8–12 N. Finished Ra ＜ 1 nm, TTV ＜ 2 μm, thermal affected zone ≤ 30 nm.
• Auxiliary Control: Use deionized water with special additives as coolant. Adopt stepped pressure curve and keep spindle vibration below 0.1 μm to prevent wafer breakage.

Machining Damage & Quality Control Standards

Damage Mechanism

• Silicon: Damage is mainly plastic deformation and shallow microcracks, subsurface damage layer: 1–5 μm.
• SiC: Dominated by brittle fracture. Subsurface crack depth reaches 10–20 μm with large residual stress, easily causing invisible cracks and edge chipping.

Universal Quality Specifications

6. Moresuperhard: Reliable Diamond Thinning Wheel Solutions

With years of R&D and manufacturing experience in diamond abrasive tools, Moresuperhard focuses on developing high-performance thinning wheels for Si, SiC and other hard brittle semiconductor materials. We provide one-stop, cost-effective solutions for global clients, covering traditional semiconductors and third-generation semiconductor industries.

Complete Product Portfolio

Silicon Dedicated Thinning Wheels

Full grain range from #1000 to #8000 with premium vitrified bond. Standard abrasive concentration (75%–100%) and 30%–50% porosity.

• Features: High efficiency, low damage and long service life
• Performance: Subsurface damage ≤ 5 μm, TTV ＜ 3 μm
• Compatibility: Fully fits Disco, Tokyo Seimitsu and other mainstream thinning machines. Plug-and-play without process adjustment.

SiC Dedicated High-End Thinning Wheels

Including #2000 rough grinding wheels and #8000–#30000 ultra-fine fine grinding wheels, with optional vitrified, resin and metal bonds. Adopt 100%–150% high diamond concentration.

• Optimized for SiC’s high brittleness: Edge chipping ≤ 8 μm, thermal affected zone ≤ 30 nm, minimum Ra up to 0.5 nm
• #30000 ultra-fine wheels enable direct polishing after fine grinding, simplifying production procedures.
• Metal bond wheels are available for post-packaging heavy-duty machining.

Core Advantages of Moresuperhard

• International-level Technology & Localized Cost Advantage: We own independent R&D laboratories and automatic production lines. Our vitrified bond wheels and #30000 SiC fine grinding wheels match top international brands, helping clients replace imported products and cut procurement costs.
• Low Damage Design for Higher Yield: Optimized pore structure and diamond arrangement deliver excellent chip removal and heat dissipation. Effectively reduce microcracks and hidden fractures on wafers. Field tests prove our wheels reduce defective rate by over 15%.
• Long Service Life & Lower Operational Cost: High-quality diamond abrasives and high-strength bonds extend wheel lifespan. Less frequent wheel replacement reduces equipment downtime and overall maintenance cost.
• Customization & Full Technical Support: We provide customized wheels according to wafer size, target thickness, equipment and production requirements. Our professional engineers offer on-site process debugging, wheel dressing and fault troubleshooting for stable mass production.

Target Customers & Cooperation Modes

Our products serve wafer manufacturers, third-generation semiconductor component producers, chip packaging & testing factories, new energy electronics and 5G component suppliers worldwide.

Available cooperation modes: Standard products in stock, non-standard customization, trial order and bulk order. Free technical support is provided for trial runs.