Wire Stripper Guide: Types, Gauges & How to Use Them Correctly

A wire stripper is one of those tools that looks simple but repays careful selection with every job you do. The right stripper removes insulation cleanly, without nicking the conductor underneath. A nicked conductor at a termination is a failure point: resistance increases, heat builds, and in residential wiring, that joint can eventually arc. Under AS/NZS 3000:2018 (the Australian Wiring Rules), conductors must not be damaged during stripping — it is a compliance requirement, not just good practice.

This guide covers every type of wire stripper available in Australia, how to read wire sizes in metric (mm²) rather than the US AWG system, how to select the right tool for the job, correct stripping technique, insulation standards, and a brand guide covering what AIMS Industrial stocks.

Browse AIMS Industrial’s wire stripper range →

1. Types of Wire Stripper

Wire strippers fall into five main categories. The right type depends on how frequently you strip wire, how many gauges you work across, and whether clean insulation removal or production speed matters most.

Manual (Notch-Type) Wire Strippers

The most common type on Australian tool belts. A manual wire stripper has a series of precisely sized notches along the blade, each matched to a specific wire gauge. You locate the correct notch, close the handles to cut the insulation, and pull the tool toward the end of the wire to remove the sleeve.

Manual strippers are inexpensive, lightweight, compact, and highly reliable because there are no moving parts beyond the pivot. Their limitation is that you must select the correct notch — a notch that is too small nicks the conductor; too large and the insulation won’t be fully cut and you’ll drag rather than strip.

Most manual strippers also incorporate cable cutters and crimping dies, making them multi-function tools for panel wiring, auto electrical, and general electrical maintenance. Typical gauge range on an Australian manual stripper: 0.5–6 mm² for wire, with cutters rated to 10 mm² or beyond.

Automatic (Self-Adjusting) Wire Strippers

An automatic wire stripper adjusts to the wire gauge without the operator selecting a notch. The mechanism grips the insulation, detects the wire diameter at the moment of blade closure, and sets the cut depth accordingly. Pulling the handles apart strips and ejects the sleeve in a single motion.

Self-adjusting strippers are faster than manual types for repetitive stripping, reduce operator error, and work across a wide gauge range (typically 0.08–16 mm² on quality tools) without resetting between sizes. They are the tool of choice for industrial panel builders, sparky work involving multiple conductor gauges, and automotive wiring. The trade-off is higher cost and more moving parts to maintain.

The Knipex Ergostrip (11 64 180) is the benchmark automatic stripper in Australian trade circles — fast, accurate, and durable enough for daily professional use. Jokari produces well-regarded alternatives at a lower price point. See the Brand Guide below.

Electric Wire Strippers

Battery-powered or mains electric strippers are designed for production environments where volume stripping would cause repetitive strain injury with manual tools. They rotate a blade assembly around the conductor to cut insulation, then eject the sleeve. Throughput can exceed 1,500 strips per hour on a production-spec electric stripper.

For most Australian trade applications, an electric stripper is overkill. They are most commonly found in wire harness assembly, electrical panel manufacturing, and large-scale industrial wiring.

Coaxial Cable Strippers

Coaxial cable (coax) has a layered structure — centre conductor, dielectric, braid, and outer jacket — that requires a dedicated stripper to cut each layer to a precise depth without disturbing the layers beneath. A universal knife-type stripper used on coax will almost certainly cut into the braid or short the centre conductor against the shield.

Coax strippers are available in fixed configurations (matched to specific cable types such as RG6, RG58, or RG59) and adjustable configurations that allow blade depth to be set for different cable diameters. There are also combination strippers that prep the outer jacket and braid simultaneously in a single pass.

For data cable (Cat5e, Cat6, Cat6A), a dedicated UTP/STP stripper rotates around the cable rather than clamping and pulling, preventing damage to the twisted pairs inside. Using a standard wire stripper on Cat6 cable compresses the pairs and degrading signal performance above 1 Gbps.

Thermal Wire Strippers

Thermal strippers use a heated element to melt through insulation rather than cutting it mechanically. They are used on wire types where blade strippers risk conductor damage — particularly fine gauge wire (below 0.2 mm conductor diameter), magnet wire (enamel-coated copper used in motor windings), and silver-coated PTFE-insulated wire used in aerospace and defence electronics.

For standard industrial and trade applications, thermal strippers are rarely needed. They are a specialist instrument for precision electronics work.

2. Wire Sizes in Australia: mm² Not AWG

Australia uses metric cross-sectional area (mm²) to specify wire sizes, as defined by IEC 60228 and adopted in AS/NZS 3000:2018. This is the size printed on cable sheaths, stamped on switchboards, and listed on switchgear datasheets throughout Australia.

AWG (American Wire Gauge) is a US standard. Despite the volume of American content online about wiring and electrical tools, AWG sizes do not directly apply to Australian electrical work. When shopping for wire strippers, ensure the notch or dial markings include mm² rather than AWG-only. Quality strippers from European manufacturers (Knipex, Jokari, CK) mark notches in mm². Some US-origin tools mark AWG only.

3. How to Choose a Wire Stripper

The right wire stripper matches your gauge range, wire type, frequency of use, and whether you need single-function or multi-function capability. The table below summarises the key choice factors.

Gauge Range

Buy a stripper that covers the wire sizes you actually use. If you work primarily on residential lighting and power circuits, a stripper covering 0.5–6 mm² covers almost every scenario. If you do industrial panel wiring, 0.08–16 mm² on a self-adjusting tool gives you more headroom. There is no benefit to buying a stripper with a range far beyond your typical wire sizes — the tool does not improve in that range, it just takes up drawer space.

Solid vs Stranded Conductor

Most strippers handle both solid and stranded wire, but the technique differs. For stranded wire, the blade depth needs to cut cleanly through insulation without splaying or cutting individual strands. Self-adjusting strippers are generally gentler. If you work regularly with fine stranded wire (below 1 mm²), confirm that the stripper is rated for stranded conductor at those gauge sizes — some budget manual strippers have notches sized only for solid wire.

Insulated vs Non-Insulated Handles

Standard wire strippers have dipped rubber or PVC handle grips. These are not rated for live working. If your application involves working on or near live circuits, you need insulated tools rated to IEC 60900 / AS/NZS 4233 (1,000 V AC, 1,500 V DC). See the Australian Standards section below. Knipex, Jokari, and CK all produce IEC 60900-rated strippers with the dual-layer red/yellow insulation.

Multi-Function vs Single Function

Manual wire strippers commonly incorporate cable cutters, crimping dies, and sometimes a wire looping or bending nose. These multi-function tools suit an electrician’s tool belt where space is at a premium. Self-adjusting strippers are almost always single-function — their mechanism occupies the space that would otherwise house crimper dies. If you need crimping as well as stripping, buy separate dedicated tools for best results. Combination stripper/crimpers represent a trade-off in both stripping and crimping quality.

4. How to Use a Wire Stripper Correctly

Using a manual notch-type stripper correctly is straightforward, but a common technique error is responsible for most nicked conductors and most AS/NZS 3000 compliance issues. Follow these steps for a clean strip every time.

Step 1: Select the Correct Notch

Find the notch that matches your wire size in mm². The size is usually marked in the conductor (the inside of the notch represents the conductor diameter at that cross-section). If your stripper is marked in AWG, refer to the conversion table above. When in doubt, start at a slightly larger notch and move down — it is easier to clean up a partly stripped wire than to undo a nicked conductor.

Test the notch on a scrap of the same wire type before stripping your final run. A correctly selected notch will cut cleanly through the insulation at the target strip length without any resistance from the conductor.

Step 2: Set the Strip Length

Strip length depends on the termination: 5–8 mm for most crimp terminals and screw terminals, 10–15 mm for lever-type terminals, up to 25 mm for wire nut (Wago) connections depending on the connector manufacturer’s specification. Many quality strippers have a depth stop or graduated markings on the jaw to set consistent strip lengths without measuring each wire.

Step 3: Insert the Wire and Close the Handles

Insert the wire to the strip length you want. Close the handles firmly but not forcefully — the blades only need to cut through insulation, not through the conductor. On a manual notch-type, you will feel the blades contact insulation and stop at the conductor. On a self-adjusting stripper, the mechanism does this automatically.

Step 4: Rotate and Pull

For manual strippers: rotate the tool 90° while maintaining light closing pressure, then pull toward the end of the wire to slide the insulation sleeve off. The rotation scores the insulation circumferentially, making it easier to pull cleanly without dragging. For automatic strippers: simply close the handles fully — the mechanism grips, cuts, and ejects the sleeve in one motion without requiring a pull.

What Happens If You Use the Wrong Notch

Stripping Without a Wire Stripper

In a genuine emergency where no stripper is available, a sharp utility knife can be used if the conductor is large enough (4 mm² or above) to provide some margin for error. Score the insulation circumferentially at the target point by rotating the wire against the blade at a shallow angle, then pull the sleeve off. This technique requires a steady hand and risks conductor damage on fine wire. It is not compliant practice for licensed electrical work. For auto electrical, fishing line wrapped around the wire and pulled in opposite directions can score PVC insulation on thicker cables without conductor contact.

5. Australian Standards: What You Need to Know

AS/NZS 3000:2018 — The Wiring Rules

AS/NZS 3000:2018 (Australian/New Zealand Wiring Rules) is the primary standard governing fixed electrical installations in Australia. Section 3.8.3 requires that insulation be removed from conductors without damaging the conductor or remaining insulation. Specifically, mechanical damage (nicking, cutting, or reducing the cross-sectional area) of conductors during stripping is a defect under the Wiring Rules and renders the installation non-compliant.

This means that using the wrong notch, a blunt stripper, or an inappropriate stripping method is not merely a quality issue — it is a compliance failure that must be corrected before the installation passes inspection. Nicked conductors at terminations have been cited in ATSB electrical investigation reports as contributing factors to residential wiring fires.

The practical implication: use the right tool, in good condition, and check the conductor visually after stripping. Any nick or notch in the conductor surface requires the wire to be cut back and re-stripped.

IEC 60900 / AS/NZS 4233 — Insulated Tools for Live Working

Standard wire strippers — even high-quality ones with rubberised grips — are not rated for live or live-adjacent work. The grip coating provides grip and comfort, not electrical insulation to a tested voltage standard.

IEC 60900 (adopted in Australia as AS/NZS 4233) defines the requirements for insulated hand tools designed for use on systems up to 1,000 V AC or 1,500 V DC. Tools complying with this standard are identifiable by:

• Dual-layer insulation: an inner layer (typically red) and an outer layer (typically yellow), so that any break in the outer layer is immediately visible as a colour change
• The voltage rating (1000V) moulded or stamped into the handle
• The IEC 60900 certification mark
• A 10,000 V dielectric test at manufacture, providing a safety margin well above the rated working voltage

Under Australian WHS regulations and the Wiring Rules, licensed electricians must use insulated tools when the risk assessment requires them. This includes work on or adjacent to energised switchboard components, EV charger installations, solar system work, and any situation where accidental contact with live parts is foreseeable. Knipex and Jokari both produce IEC 60900-rated versions of their most popular strippers.

6. Brand Guide: Wire Strippers Available in Australia

The following brands are represented in the AIMS Industrial range or are widely available through Australian trade channels. Brand choice matters for professional use — blade quality, mechanism tolerance, and ergonomics vary significantly between manufacturers.

Knipex (Germany)

Knipex is the reference-standard brand for professional wire strippers in Australia and internationally. Their tools are manufactured in Wuppertal, Germany, to tight tolerances with high-quality tool steel blades. The Knipex Ergostrip (11 64 180) is the most-cited automatic stripper among Australian electricians on trade forums, praised for its single-motion speed, wide gauge range (0.08–16 mm²), and long service life. The Knipex 11 02 160 is their primary multi-function manual stripper for 0.2–6 mm². IEC 60900-rated versions (VDE range) are available for live-adjacent work.

Jokari (Germany)

Jokari produces specialist stripping tools for data cable, coaxial cable, and multi-conductor cable that are not covered by standard wire strippers. Their multi-purpose strippers are frequently recommended as the practical alternative to Knipex at a lower price point. The Jokari 20050 (Quadro-Plus) is a well-regarded multi-function stripper for round and flat cables. Jokari also produce a comprehensive range of coax and data cable strippers including models for Cat5e/Cat6 and RG6/RG58. Widely available in Australia through electrical and tool distributors.

Milwaukee Tool

Milwaukee’s wire stripper range targets heavy-duty trade use. Their INKZALL-branded combination stripper/cutters are built to Milwaukee’s usual durability standard, with bi-material grips and hardened blades. Milwaukee wire strippers are rated for wire sizes common in Australian residential and commercial electrical work and are available through major Australian tool distributors.

CK Tools (UK)

CK Tools (Charles Kander) is a UK manufacturer with a long history of producing professional-grade electrical tools for the European and Australian markets. Their wire strippers offer solid build quality at a mid-range price point, with clear mm² markings and comfortable handles. CK produces both standard and VDE-insulated (IEC 60900) stripper versions.

Kincrome

Kincrome is an Australian-distributed brand offering solid value at the mid-market. Their wire strippers are well-suited to general trade, auto electrical, and maintenance applications where professional-grade European tooling is not required. Kincrome strippers cover 0.5–6 mm² as standard and typically include cutters and crimpers in a single tool. Good choice for a site or kit bag tool where cost of loss or damage matters.

Toledo

Toledo tools are distributed through Australian industrial channels and provide a practical, no-frills option for workshops and maintenance teams. Wire strippers in the Toledo range handle standard residential wire sizes and are suitable for light to moderate trade use.

Cabac

Cabac is an Australian electrical accessories manufacturer best known for terminals, connectors, and cable management products. Their wire stripper range covers the basic gauge sizes needed for residential and commercial electrical work and is available through electrical wholesalers nationally. The Cabac range provides value-for-money tools suited to volume purchases for site kits or apprentice tool sets.

View wire strippers at AIMS Industrial →

7. Coaxial and Specialist Wire Strippers

Standard wire strippers are designed for insulated conductor wire. Several other cable types require specialist stripping tools due to their layered or sensitive construction.

Coaxial Cable (RG6, RG58, RG59)

Coaxial cable has four distinct layers: the centre conductor, a solid or foamed dielectric, a braided or foil outer conductor (shield), and an outer PVC jacket. Stripping coax correctly exposes each layer to a precise depth without cutting the layer beneath.

Coax strippers are typically rotary-blade tools that clamp around the cable and rotate to score the jacket and dielectric without contacting the braid or centre conductor. Better coax strippers have adjustable blade depth settings to accommodate different cable outer diameters. A cable marked RG6 with a 6.86 mm outer diameter from one manufacturer may have slightly different dimensions from another brand — an adjustable stripper compensates for this variation.

Using a standard knife on RG6 coax is the fastest way to create a high-return-loss connector that passes a visual inspection and fails at 2.4 GHz. If you’re doing any volume TV antenna, Foxtel, or CCTV coax work, a dedicated rotary coax stripper is essential.

Data Cable (Cat5e / Cat6 / Cat6A)

Ethernet data cable contains four twisted pairs with very tight pair-twist specifications. The outer jacket must be removed without disturbing the twist rates of the pairs beneath. A standard wire stripper that clamps and pulls will compress the pairs and potentially untwist them, degrading insertion loss and crosstalk performance at high frequencies.

UTP strippers for data cable use a scoring wheel that rotates around the cable rather than applying lateral blade pressure. The jacket is scored circumferentially, then pulled off, leaving the twisted pairs intact. For Cat6A (10GbE), this is particularly important — the alien crosstalk specifications leave very little margin for conductor damage.

Steel Wire Armoured (SWA) Cable

SWA cable has an outer PVC sheath, steel wire armouring, inner PVC bedding, and insulated conductors. Stripping the outer sheath requires a cable ringing tool (a scored blade that is run around the circumference of the outer jacket at the target depth) rather than any standard wire stripper. The steel armouring is cut back with a junior hacksaw. This is a specific skill and a specific tool — not a task for a general wire stripper.

Fibre Optic Cable

Fibre optic cable contains glass fibres that cannot tolerate any lateral force during stripping. Fibre strippers are precision tools with controlled jaw pressure and very fine blade tolerances. They are typically thermal (to avoid mechanical stress) or use extremely thin adjustable blades. Fibre stripping is a specialist task that goes beyond the scope of a general wire stripper.

8. Maintaining Your Wire Stripper

Wire strippers are straightforward to maintain but are often neglected until they start dragging on insulation or nicking conductors — at which point the damage to work is already done.

Blade Wear

The blades in a wire stripper are the critical wear component. Stripping PVC insulation is relatively gentle on blades compared to stripping harder materials (cross-linked polyethylene, PTFE, or rubber-insulated cable). Signs of worn blades: dragging on insulation rather than cutting cleanly, requiring more force to close the handles, and visible chipping or rounding on the blade edges. On manual strippers, blades are occasionally replaceable as a spare part; on most consumer-grade strippers, blade wear means tool replacement.

Mechanism Cleaning (Self-Adjusting Strippers)

The self-adjusting mechanism on automatic strippers includes small springs, levers, and blade carriages that can accumulate insulation fragments, dust, and copper shavings. Clean the mechanism periodically with compressed air and a soft brush. Do not use water or solvent cleaning on automatic strippers unless the manufacturer specifically approves it — lubricant in the wrong places on the mechanism can cause erratic blade depth adjustment. Knipex recommends dry cleaning only for the Ergostrip mechanism.

Pivot Lubrication

The pivot pin on manual strippers benefits from a drop of light machine oil or PTFE lubricant periodically — particularly in dusty environments. A stiff pivot makes the tool fatiguing to use over a day of continuous stripping. Apply lubricant sparingly to avoid attracting dust to the blades.

When to Replace

Replace a wire stripper when: blades consistently nick conductors even with the correct notch selected; the mechanism on an automatic stripper stops adjusting reliably; the pivot is loose or the handles have excessive play; or handle insulation is cracked (particularly on IEC 60900 tools, where any crack in the outer insulation layer means the tool must be retired and replaced immediately).

9. PPE When Stripping Wire

Wire stripping is generally low-risk for hand injury when done correctly with sharp, appropriate tools. The risks worth noting:

• Eye protection: Insulation offcuts and copper strand fragments can become projectiles during stripping. AS/NZS 1337.1-compliant safety glasses are recommended for sustained stripping work, particularly with stiff or brittle insulation types.
• Cut gloves: Light cut-resistant gloves (EN 388 Level 2 minimum) reduce nick risk when handling stripped cable ends. Note that bulky gloves reduce tactile control for fine gauge work — balance protection against dexterity requirement.
• Energised circuits: Never strip wire on or adjacent to energised circuits without IEC 60900-rated tools and a current Safe Work Method Statement. Test for dead before stripping any circuit wire.

For cable routing, bundling, and protection after termination, see AIMS Industrial’s cable management guide. For electricians and trades workers, EH-rated Steel Cap Boots Guide provides secondary protection against live circuit contact.

10. Wire Stripper FAQ

The following questions are answered in full in the FAQ schema below for search engine visibility. They represent the most common questions asked about wire strippers by Australian tradespeople and DIYers.