Furukawa F70 / KF70 Working Steel | High-Impact Moil Point Chisel | Riyadh & Worldwide Direct-to-Site Transit

🌐 Global Logistics Infrastructure: Direct Factory Dispatch to Any Location Worldwide

MERIT operates a completely borderless, high-velocity distribution network engineered to eliminate heavy machinery downtime and production bottlenecks on every continent. We ship our premium metallurgical demolition tools and rock breaker chisels to any country, city, or remote industrial job site across the globe. Whether your excavator fleet is working on regional highway expansions, primary stone quarries, or deep-pit extraction sites, we guarantee direct factory-to-door transit:

• Arabian Infrastructure & Energy Corridors: Streamlined customs clearing and priority transport servicing Riyadh industrial zones, regional infrastructure projects, and high-volume crushing plants.
• Global Extraction & Infrastructure Basins: Rapid, direct dispatch to primary industrial zones—from the mineral corridors of Western Australia (Perth) and the copper basins of Latin America to major infrastructure grids across North America (Houston) and the Middle East (Dammam, Jeddah, Muscat).
• International Maritime & Transit Hubs: Seamless freight forwarding to major commercial marine, port terminal, and urban transit operations across Europe (Rotterdam, Frankfurt) and Southeast Asia (Jakarta, Singapore).

Our team coordinates with premier global freight carriers to drop precision structural parts directly to your maintenance yard, workshop, or field asset. Wherever your machinery operates worldwide, MERIT delivers.

High-Impact Kinetic Energy Transfer Matrix

The Moil Point Chisel, custom-forged for heavy-range Furukawa / FRD / Kent F70 and KF70 hydraulic hammers, is the primary ground-engaging element engineered for high-volume material displacement. Tasked with managing the core kinetic dynamics of a heavy percussive hammer operating on major excavation platforms, this premium equivalent tool converts 100% of the reciprocating piston’s impact energy into a concentrated force matrix designed to shatter hard, non-stratified rock formations and reinforced concrete.

Unlike standard aftermarket tools that easily deform or snap under bending stress, MERIT working steels are manufactured utilizing vacuum-degassed, high-performance alloy structural steel. The raw alloy undergoes a complex multi-stage forging process and precise thermal heat treatments to achieve an optimized balance between maximum surface hardness and a resilient, shock-absorbing internal core. This structural integrity ensures the tool shank can survive relentless shockwaves while maintaining its geometric profile during demanding open-pit mining scaling, primary quarry breaking, and heavy industrial demolition.

Technical Features and Metallurgical Precision of MERIT Tools

Surviving millions of high-frequency percussive impacts while subjected to intense sliding friction, high operating temperatures, and bending forces requires flawless structural chemistry. MERIT ensures field reliability through:

1. Dual-Zone Thermal Treatment Profile

Our advanced induction heat-treatment process creates two distinct structural zones within a single piece of steel. The working tip and lock-pin retaining fields feature an exceptionally deep, hard exterior wear skin (56 to 60 HRC) to resist blunting and abrasive wear, while the internal core retains high impact toughness to absorb devastating shockwaves without splintering.

2. CNC-Machined Stress-Relieved Lock Pin Slots

The retainer pin slots on the upper shank are precision-milled using multi-axis CNC machining centers to match original equipment engineering tolerances. This perfectly smooth, contoured geometry ensures an even distribution of retention loads when the tool drops forward, completely eliminating sharp internal corners where fatigue cracks typically propagate.

3. Structural Resistance Against Blank Firing

Unexpected blank firing (piston impacts occurring when the tool tip is not firmly pressed against the material) creates massive internal tensile stresses. MERIT tools are structurally normalized to safely dissipate these destructive rebound forces, minimizing the risk of transverse body fractures across the upper shank interface.

Tool Profile Features: The Moil Point Advantage

The Moil Point Profile features a focused, four-sided pyramid tip engineered for supreme penetration control. This geometric configuration concentrates the total impact energy of the Furukawa power cell onto a single focal spot on the rock surface, creating extreme stress zones that force open deep micro-fissures.

• Primary Application: Ideal for initiating fractures in hard, monolithic stone formations, trenching through solid rock beds, and general concrete demolition where directional splitting is not required.
• Alternative Tool Profiles Available: Chisel (Wedge) profiles for multi-directional splitting in layered rock/shale, and Blunt profiles for high-impact fragmentation of oversized igneous boulders and metallurgical slag.

Product Query Verification Protocol

To ensure perfect component compatibility and seamless system integration, please confirm your specific version requirements with our engineering team:

📋 Verification Parameter	⚙️ Required Technical Information
Hammer Model Configuration	Confirm hammer model: FRD / Furukawa F70, KF70, or Kent variant
Tool Shank Working Length	Total required tool length from the striking face to the tip
Retainer Pin Layout	Single or dual locking pin slot orientation on the upper shank
Working Application Environment	Primary quarrying, trenching, underwater breaking, or high-abrasion slag removal
Destination Country & City	Complete delivery address or designated port of entry for expedited logistics mapping

⚠️ Maintenance Engineering Advisory: Tool lubrication is absolutely vital to protect both the working steel shank and the internal front guide bushings. Always ensure that a dedicated, high-temperature chisel paste containing copper or molybdenum disulfide (MoS2​) is pumped into the front head assembly at regular operational intervals. Never allow the tool to run dry, as steel-on-steel friction will generate localized temperatures exceeding 400°C, causing rapid thermal scuffing, cold galling, and premature tool fatigue failure. Never use the chisel tip as a lever to pry or twist rock, as high bending stresses will snap even the strongest alloy steel.