Diamond Blades for Stone (Granite/Marble)

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Diamond Blades for Stone (Granite/Marble)

Product Overview

Stone cutting is abrasive grinding + debris removal—poor evacuation overheats and glazes segments; clean evacuation sustains speed and life

Diamond blades engineered for granite/marble—stable speed and life via segment cooling, debris evacuation and bond matching

The blade grinds stone via diamond particles. Debris (dust/slurry) must evacuate; otherwise segments glaze, temperatures rise, matrix wears abnormally, and diamonds are lost early—speed and life both drop. Engineering control relies on segmented/turbo rims, correct bond hardness, and preferably wet cutting for cooling and dust control.

Product Description

Product Positioning

Consumable cutting tool for stone—engineered segments and rim structure deliver efficiency and predictable service life

Diamond blades for granite/marble prioritize diamond concentration, bond hardness (matrix), and cooling/evacuation structure rather than tooth geometry. They target users requiring stable cutting speed, controlled heat, predictable life, and acceptable edge quality in stone fabrication and jobsite cutting.

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Technical Specifications

Three decisive levers: rim type (continuous/turbo/segmented), segment height/width, and bond hardness (soft/medium/hard)

Specification	Engineering Notes
Materials	Granite / Marble (extendable to specific Quartz/Engineered Stone with specialized formulas)
Rim Type	Continuous / Turbo / Segmented (optimized for cut quality, speed, and heat dissipation)
Segment Height	Increased height typically extends tool life; must match equipment power and cooling conditions
Segment Thickness	Thick = enhanced durability & stability; Thin = lower resistance & faster cutting but more sensitive
Bond Hardness	Soft / Medium / Hard: matched according to stone abrasiveness and cooling conditions
Cooling	Wet cutting preferred; dry cutting requires superior heat dissipation structures and conservative feed rates
Arbor	22.23 / 25.4 mm typical (Customizable per market requirements)

Key Features

Stable cutting without overheating, vibration or edge damage—driven by cooling structure and bond matching

Stable speed through self-sharpening via correct bond hardness;
Longer life by matching segment height/formula to stone abrasiveness;
Better cooling/evacuation using segmented/turbo rims;
Controlled edge quality with continuous rim favoring finish, segmented favoring throughput.

Processing Logic

Speed means diamonds are working; life means matrix wears correctly—both rely on cooling and evacuation

Bond too hard: diamonds don’t expose → glazing → slow cutting and heat rise;
Bond too soft: diamonds release early → fast initially but short life;
Poor evacuation: slurry/dust builds up → more heat → shorter life and higher risk.

Selection must consider stone abrasiveness, machine power/RPM, and dry vs wet conditions.

Machine Compatibility

Typical machines: angle grinders, cut-off saws, bench stone saws—wet systems greatly expand the process window

Angle grinders: rely heavily on blade cooling and operator feed—turbo/segmented preferred; wet cutting recommended;
Bench/cut-off saws: stable cutting enables thinner blades for efficiency; wet cutting improves repeatability and life;
Jobsite groove/trim: choose stable designs and conservative feed to reduce binding and overheating.

Engineering Comparison

Continuous vs turbo vs segmented—trade-offs among finish, speed and cooling

Rim Type Comparison

Continuous rim: best edge quality, less chipping; weaker cooling—prefer wet, conservative operation;
Turbo: balanced option for most granite/marble tasks;
Segmented: strongest evacuation/cooling and fast cutting; rougher edge—best for throughput and rough cuts.

Dry vs Wet

Wet cutting dramatically reduces dust and temperature, offering the best path to longer life and stability.

Typical Applications & Industries

Used in countertop fabrication, façade stone work, interior renovation, repair and jobsite cutting

Cutting stone slabs, grooves and trims; countertop/sill/threshold fabrication; jobsite cutting and fitting.

Range & Recommended Use

4-step selection: stone hardness/abrasiveness → rim type → dry/wet → segment height/thickness

Best finish / visible edges: continuous rim or fine turbo + wet;
General purpose: turbo;
Maximum speed / rough cutting: segmented;
One-line rule: Finish=continuous, balance=turbo, speed=segmented; wet cutting whenever possible.

Customization (OEM/ODM)

OEM/ODM by stone abrasiveness and working condition—granite varies; bond and rim design should match

OEM/ODM:

Diameter, bore, thickness, segment height, rim type, bond hardness grade, diamond concentration/grit system, slot design, private label packaging.

Why Choose Us

We parameterize stone blade selection—bond grade × rim type × dry/wet logic builds repeatable SKUs and reduces misuse

The most common issues are wrong bond grade or wrong operating conditions. We translate stone and machine inputs into actionable structure/formula recommendations, enabling clearer product matrices and selection messaging for your channel.

Usage & Storage Recommendations

Three red lines: control temperature (wet preferred), dust, and binding—otherwise segments overheat, glaze and chip

Prefer wet cutting for cooling and dust reduction;
Dry cutting must be conservative—intermittent cuts, avoid continuous heavy load;
Prevent binding—keep kerf open, avoid side pressure;
Use PPE—stone dust is hazardous;
Store dry and protect segments from impact.