Laminates

Moore Addison machines more LAMINATE materials than any other type of non-metallic material. This is the family of industrial materials where sheets of paper, canvas, linen and glass fabric are soaked in different resins of phenolic, melamine, epoxy and silicone (to name only the basics). The sheets are then stacked up in a press and cooked in an oven; it becomes a solid block. All our machining is set up to work these materials and control the dust that is created.

The speeds and feeds in machining laminates are faster than any metal offering a bottom line savings to the customer. The fine dust produced in machining laminates requires completely different handling than the chips that come off metal parts. This dust is nasty stuff. Why not keep the mess in our shop instead of yours?

The niche Moore Addison fills is that we machine precision parts out of materials that produce a nasty dust when cut. For that reason, Moore Addison machines all our materials dry. The dust and chips are collected with an enormous suction system. In this wind tunnel environment, any hot metal shards would catch fire. That is why any material we cut must make a cool chip and we don’t machine metals.

A partial list of materials groups and grades we currently machine in quantity is listed herein. Laminates leads the list. It is a partial list because if we listed all materials that produce a cool chip when cut, we would have many pages; you would get bored and go to another website. We want you to stay with us; indeed, if you want to use a particular grade of material and get all kinds of limiting minimums when calling material suppliers, give Moore Addison a try. We’ll sell you less than a full sheet; we’ll even make the part for you.

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What Are the Different Grades of Phenolic Laminates & Benefits of Each?

Phenolic laminates are composite materials composed of layers of paper or fabric impregnated with phenolic resin, which are then cured under heat and pressure. These laminates are available in various grades, each offering distinct benefits based on their composition and properties. It is important to consult the specific manufacturer's documentation and product data sheets to understand the detailed properties, limitations, and recommended applications for each grade of phenolic laminate. The benefits and suitability of a particular grade may vary depending on the specific requirements of the intended application. Moore Addison works with a variety of commonly used grades of phenolic laminates. Here are several examples with their advantages:

NEMA Grade X/XX/XXX
These are general-purpose phenolic laminates. They are known for their high mechanical strength, excellent electrical insulation properties, and good resistance to moisture, heat, and chemicals. They are commonly used for applications such as electrical insulation, switchgear, terminal boards, and mechanical components.
NEMA Grade C
This grade of phenolic laminate is reinforced with a canvas fabric. It offers higher impact strength and dimensional stability compared to the X/XX/XXX grades. NEMA Grade C laminates are suitable for applications that require enhanced mechanical properties, such as gears, bushings, and bearing retainers.
NEMA Grade LE
LE stands for "low electrical conductivity." This grade of phenolic laminate is specifically designed to have low electrical conductivity, making it suitable for electrical insulation applications where high voltage and low leakage current are critical, such as in transformers and high-voltage insulation barriers.
G-10/FR-4
These are flame-retardant phenolic laminates. They are reinforced with glass cloth and offer excellent mechanical strength, dimensional stability, and electrical insulation properties. G-10/FR-4 laminates have self-extinguishing properties, making them suitable for applications that require flame resistance, such as electrical connectors, printed circuit boards (PCBs), and structural components.
G-11
G-11 laminates are similar to G-10/FR-4 laminates but offer higher temperature resistance. They can withstand continuous operating temperatures of up to 180°C (356°F) without significant loss of mechanical or electrical properties. G-11 laminates are commonly used in high-temperature electrical applications, such as electric motor insulation, coil forms, and insulating washers.
XPC
XPC stands for "phenolic cotton cloth." This grade of phenolic laminate is reinforced with cotton fabric, which provides good mechanical strength, excellent dimensional stability, and good electrical insulation properties. XPC laminates are often used in applications that require high impact resistance, such as tooling jigs, fixtures, and wear-resistant components.

Materials

Production Volume and Lead Times: Custom Parts; Custom Machining
High Mix, Low Volume style of production
Max (yield) for Min (cost)
50 units min with exceptions
5000 units max with exceptions
Long Runs
Short Runs
Two to Three week normal lead time
Break-ins available by negotiation
“We will not lose an order because of delivery!”

Materials (anything that produces a cool chip when cut)

Phenolic Laminates All Grades
– Grade C Canvas
– Grade L Linen
– Grade XXX Paper
– G-10 / FR4 Glass Epoxy
– G-11 glass epoxy (high temperature)
– G-5 / G-9 Glass Melamine
– G-7 Glass Silicone
– Graphite impregnated

Electrical Sheet Insulation

Fishpaper
Vulcanized fibre
Nomex
Mylar

Glass Polyester All Grades

GPO-3 Red
Glastic Sheets, Channels and Angles
Extren Sheets, Channels and Angles

Mechanicals
– Nylon 101 (6/6) extruded
– Nylon 901 cast
– Nylatron GS & GSM
– Acetal (Delrin™)
– PTFE (Teflon™)
– Other White Plastics

Transparent
– Acrylic All Grades, All Colors, All Manufacturers
– Polycarbonate All Grades, All Colors, All Manufactures

Polyolefins
– Polypropylene
– PVC all schedules
– CPVC

UHMW HDPE and other wear materials
Synthetic Composites
High Performance Plastics
Corrosion Resistant Plastics

High Temperature Refractories Materials
– Transite II silicate based, high temperature
– Cement board.
– Marinite grades
– Glastherm
– HT200

Production Methods: CNC Machining
Manual Production machining our base.
Lathes
Mills
Drills
Saws
Sheet Grinders

Services Provided: Light Assembly (all hand work)
Boring
Broaching (key ways and similar)
Buffing
Deburring (skiving and tumbling
Drilling
Grinding
Milling
Punching
Reaming
Sanding
Shearing
Single point turning
Tapping
Turning

Material Handling Capabilities: 48 in. x 96 in. Sheets (some specialty sheet sizes too)
Min down to 0.020 in. (thick)
Max up to 3 in. on all plastics (there are exceptions; we can go thicker even up to 13″ or more)
Max on Phenolic blanks up to 8 in. thick (some dimensions more)
Max on Rods and Tubes up to 24 in. Diameter (some parts more)

Tolerance: ±0.003 in. for Machined Parts
±0.010 in. for Cut parts

Additional Information

Industries We Serve: Aircraft
Candy and Confections
Communications
Electrical / Electronic
Food Service
Forklift
Gear Manufacturers
Government / Military
Medical
Music / Sound Modulation
Nonmetallic Die Cutting
Plating
Power Transmission
Railroad: Engine, Car & Truck Parts
Water Conditioning
Welding Industry

Applications of Parts we make: Bushings
Bearings
Converting (Slitting) Machinery Parts
Conveyor line parts
Elevator Components
Hydraulic / Pneumatic Cylinders
Gear Blanks
Industrial Equipment
Industrial Components
Pinball & Video Games
Printing Press Parts
Research Labs: Physics/Particle/Nuclear/Cryogenic
Screw Machine Parts
X-Ray Equipment
RF Insulation

Industry Standards (our production practices meet all industry standards): ISO 9001:2008 Compliant
FDA
CNA
NEMA
Under Writes Laboratory

File Formats: AlphaCAM (AMD,ATD)
AutoCAD (DWG,DWZ)
DXF
Drawing Interchange Format, or Drawing Exchange Format
GIF
Graphics Interchange Format
IGES
Initial Graphics Exchange Specification, ANSI file format.
JPG or JEPG
Joint Photographic Experts Group
MasterCam (MDX, MC8, MC9, SET)
PDF
Portable Document Format
SolidWorks (SLDPRT,SLDDRW,SLDDRT)
STEP
Standard for the Exchange of Product Model Data