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  • CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade
  • CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade
  • CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade
  • CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade
  • CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade
  • CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade
CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade

CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade

$2.91-$2.91/ Piece|10 Piece/Pieces(Min. Order)
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CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • Precision Machining: Designed for grooving, parting, slotting, and thread cutting on steel workpieces using indexable carbide inserts.
  • Material Compatibility: Combines steel and carbide materials to ensure durability, heat resistance, and precision in CNC lathe operations.

Key features

  • 1. Material Technology: Corrosion-Resistant Steel & Carbide Construction

    • With corrosion-resistant steel and carbide components, you can ensure durability in harsh machining environments. The rainbow-colored TiN/AlN coatings (visible in the image) enhance wear resistance and heat tolerance, outperforming uncoated tools by up to 25% in longevity*.

  • 2. Interactive Design: CNC-Programmable Control Mode

    • With CNC control integration, you can program multi-task presets for precise grooving, slotting, and threading. This eliminates manual adjustments, saving 30% in setup time compared to traditional lathe tools*.

  • 3. Performance Parameters: High-Speed Steel Compatibility

    • With optimized carbide inserts and steel compatibility, you can achieve faster cutting speeds (up to 150 m/min) for steel workpieces. This outperforms standard HSS tools by 20% in output efficiency*.

  • 4. Scenario Solutions: Versatile Application in Industrial & Harsh Environments

    • With corrosion-resistant bronze alloy components (as seen in the image), you can operate reliably in marine or chemical-processing settings. The hardened coatings also enable continuous commercial use without frequent tool replacement.

  • 5. Certification Standards: EPR-Compliant Packaging

    • With EPR certifications from Germany and France, you can meet strict environmental regulations for packaging waste management. This ensures compliance with EU sustainability standards for industrial tool procurement.

Product details

CNC Lathe Machine Cutter Indexable Insert Grooving Milling Abw23r Abs15r Grooving and Parting Slotting Blade

The CNC Lathe Machine Cutter with indexable inserts combines precision engineering and advanced materials to deliver reliable grooving, milling, and slotting performance for steel workpieces. Certified under EPR standards in Germany and France, it ensures environmental compliance while offering customizable solutions for diverse machining needs.

Technical specifications

FeatureSpecificationBenefit
MaterialSteel (body), Carbide (inserts)High durability and heat resistance
Control ModeCNCPrecision and repeatability in machining
CertificationsEPR_Germany_Packing, EPR_France_PackingSustainable waste management compliance
Coating OptionsTiN (rainbow), AlN (silver/chrome)Enhanced wear resistance and speed
ApplicationGrooving, Parting, SlottingVersatile for lathe machine operations

Customization guide

Adjustable parameters include:

  • Coating Type: Choose between TiN (high-speed machining) or AlN (corrosion resistance) to match material hardness or environmental conditions.
  • Insert Geometry: Optimize edge radius (e.g., ABW23R for roughing, ABS15R for finishing) for specific cutting depths and surface finishes.
  • Material Thickness: Customize steel body thickness for heavy-duty or lightweight applications.

Get inspired

With carbide inserts, you can achieve precise grooves and slots in steel while minimizing tool wear. The EPR certifications ensure your operations align with strict environmental standards, reducing waste and disposal costs.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Max Cutting Speed200 m/min+15% (230 m/min)+30% (260 m/min)*
Tool Life30 minutes35 minutes40 minutes
Surface FinishRa 1.6 µmRa 1.2 µmRa 0.8 µm
CoatingStandard TiNDual-layer TiN/AlNDiamond-like CVD

Supplier's note

  1. Technical Breakthroughs:

    • Carbide Inserts: Triple the hardness of traditional steel tools, enabling 20% faster cutting in hardened steels.
    • EPR Compliance: First in the industry to meet dual national packing standards, reducing recycling costs by 15%.
    • Adaptive Coatings: Customizable TiN/AlN layers extend tool life by 25% in corrosive environments.

  2. Optimal Version Selection:

    • Base Model: Ideal for small workshops needing cost-effective grooving in standard steel alloys.
    • Advanced Model: Best for medium-scale production requiring dual-layer coatings for simultaneous high-speed and corrosion resistance.
    • Pro Model: Designed for heavy industries (e.g., aerospace) where diamond-like coatings and ultra-smooth surface finishes (Ra 0.8 µm) are critical.

With the Pro version’s CVD coating, you can cut titanium alloys 30% faster than industry benchmarks while maintaining precision. Pair its carbide inserts with CNC automation to reduce downtime by 40% in high-volume production.

Frequently asked questions

  • Which CNC lathe cutter is best for small workshop applications?

  • How do I maintain carbide inserts on a CNC lathe machine?

  • Steel vs Carbide Inserts: Which is better for heavy-duty machining?

  • Can these grooving blades be customized for specific materials?

  • Are these cutting tools EPR-certified for EU compliance?

  • What are the benefits of rainbow-colored coatings on machining tools?

  • Is this lathe cutter compatible with all CNC control systems?

  • Which insert type suits grooving and slotting on steel workpieces?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material CompositionMachining hard alloys, stainless steelIndustry Standard: HSS (60 HRC)
Our Base: Steel + 70% Carbide (ISO 513)
Our Advanced: 90% Carbide (ISO 513) ▲▲		▲▲ Advanced: 30% higher hardness for tougher materials (e.g., titanium)
Base: Cost-effective for medium-duty tasks		Advanced: 20% higher cost vs. Base
Industry Standard: Prone to wear in high-stress cuts
Coating TypeHigh-speed machining, heat-sensitive tasksIndustry Standard: Uncoated
Our Base: TiN Coating (2μm thickness)
Our Advanced: TiAlN Coating (3μm) ▲		Advanced: 40% better heat resistance (up to 1000°C)
Base: 25% longer tool life vs. uncoated		Advanced: Requires specialized coating processes (adds 15% to production time)
PrecisionAerospace components, medical devicesIndustry Standard: ±0.01mm (manual)
Our Base: CNC ±0.005mm (ISO 230-2)
Our Advanced: CNC ±0.002mm ▲▲		▲▲ Advanced: Meets aerospace tolerances (e.g., turbine blades)
Base: Suits automotive and general machining		Advanced: 30% higher price vs. Base
Environmental ComplianceEU-regulated manufacturingIndustry Standard: No EPR compliance
Our Base/Advanced: EPR Germany/France certified (recyclable packaging)		Both tiers: Full EU compliance for waste management and recyclingN/A (baseline for regulatory markets)
Tool LifeHigh-volume production runsIndustry Standard: 800 parts
Our Base: 1,200 parts ▲
Our Advanced: 1,800 parts ▲▲		▲▲ Advanced: 125% longer life vs. Base (reduces downtime)
Base: 50% improvement over standard tools		Advanced: Requires premium-grade carbide (higher material cost)
Weight & FlexibilityPortable machining, small workshopsIndustry Standard: 2.5kg (steel)
Our Base: 2.0kg (lightweight alloy)
Our Advanced: 2.3kg (carbide-heavy)		Base: 20% lighter for ergonomic handling
Advanced: Sturdier for heavy-duty tasks		Advanced: Less portable vs. Base

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