Boron Nitride Machining

Ferro-Ceramic Grinding Inc. offers specialized boron nitride machining services designed to support applications where material performance and dimensional accuracy are critical. Our team uses advanced machining and finishing techniques to produce complex boron nitride components that meet strict engineering specifications. By combining specialized tooling, careful process control, and extensive experience working with technical ceramics, we help manufacturers produce components that perform reliably in demanding operating environments.

Through our precision-focused boron nitride machining capabilities, Ferro-Ceramic helps engineers overcome challenging design requirements where conventional materials or standard machining methods may not deliver the necessary results. Our machining processes maintain consistent tolerances while preserving the material characteristics required for high-performance ceramic components.

Boron Nitride

Boron nitride (BN) is a synthetic material made using a hot pressing process and comes as a lubricious white solid. Below is a chart of boron nitride properties.

Boron Nitride Properties

Boron nitride machining is just one of the many services that Ferro-Ceramic provides. BN can be machined using standard carbide drills, as it’s one of the most rigid materials available—even harder than diamond material. Due to its crystal structure, BN is anisotropic electrically and mechanically—which means that its physical properties have different values depending on the measurement direction.

BN is also sometimes referred to as white graphite thanks to its hexagonal structure and lubricious characteristics, which are similar to graphite. However, unlike graphite, BN is a quality electrical insulator with higher oxidation. After boron nitride machining, the material is ready to use without additional heat treatment or firing.

BN exhibits a high electrical resistance, low dielectric constant and loss tangent, low thermal expansion, chemical inertness, and good thermal shock resistance. There are several different purity levels for this material. All offer very high thermal conductivity and stability in inert and reducing atmospheres up to 2800°C and at 850°C in oxidizing environments. 

There are various uses for BN, including:

• Vacuum components
• Low friction seals
• Various electronic parts
• Nuclear applications
• Plasma arc insulators.

With a strong emphasis on accuracy, repeatability, and technical expertise, Ferro-Ceramic provides reliable machining solutions for advanced ceramic components used in complex engineering applications. This commitment to precision manufacturing helps ensure that our boron nitride components meet the performance expectations required for critical systems.

If you’d like to learn more about boron nitride machining or Ferro-Ceramic, contact our staff today with any questions you may have.

Properties	Units	Test	Value
	Physical
Chemical Formula	-	-	BN
Density, r	g/cm3	ASTM C20	2.28
Color	-	-	white
Crystal Structure	-	-	hexagonal
Water Absorption	% @R.T.	ASTM C373	0.0 - 1.0
Hardness	Moh's	-	2
Hardness	knoop (kg/mm2)	Knoop 100g	25-205
	Mechanical
Compressive Strength	MPa @ R.T.	ASTM C773	23.5
Tensile Strength	MPa @ R.T.	ACMA Test #4	2.41 (1000 ºC)
Modulus of Elasticity (Young's Mod.)	GPa	ASTM C848	675
Flexural Strength (MOR)	MPa @ R.T.	ASTM F417	51.8
Poisson's Ratio, u	-	ASTM C818	0.05
Fracture Toughness, KIc	MPa x m1/2	Notched Beam Test	2.6
	Thermal
Max. Use Temperature (* denotes inert atm.)	ºC	No load cond.	985
Thermal Shock Resistance	DT (ºC)	Quenching	> 1500
Thermal Conductivity	W/m-K @ R.T.	ASTM C408	20
Coefficient of Linear Thermal Expansion, al	mm/m-ºC (~25ºC through ±1000ºC)	ASTM C372	1.0-2.0
Specific Heat, cp	cal/g-ºC @ R.T.	ASTM C351	0.19
	Electrical
Dielectric Constant	1MHz @ R.T.	ASTM D150	4.08
Dielectric Strength	kV/mm	ASTM D116	374
Electrical Resistivity	Wcm @ R.T.	ASTM D1829	1013

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