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Sandvik Asia Private Limited
Pimpri Chinchwad, Pune, Maharashtra

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Our Products

  1. Cutting Tool Inserts 3 Products available

  2. Iron & Metal Alloys

    2 Products available

  3. Carbide Cutting Tools

    1 Products available

  4. Machine And Precision Tools

    1 Products available

  5. Boring Tools

    1 Products available

  6. Barware & Bar Accessories

    1 Products available

  7. Oil And Lubricants

    1 Products available

  8. Iron Products

    1 Products available

  9. Iron & Iron Products

    1 Products available

  10. Cutting Tools

    1 Products available
  11. Others Products 6 Products available

Other Products / Services

We offer the best product range of Cast iron turning, Hard part turning, steel turning, Cutting data and High alloyed steel.

Reaming Tools

Reaming Tools
Boring is a machining process for enlarging or finishing of an existing hole. When fine boring, achieving excellent surface finish and close tolerances are the main goal. Reaming is a finishing operation performed with a multi-edge tool giving high-precision holes with great surface finish, superb hole quality and close dimensional tolerances.
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Coromant Capto

Coromant Capto
Coromant Capto is a modular quick change tooling concept offering three systems in one: Quick change tool holders reduce set-up and tool change time, leading to significantly increased machine utilizationCoromant Capto directly integrated in the spindle increases stability and versatility in e.g. multi-task machines, machining centres with turning capability and vertical lathesCoromant Capto as a modular system for machining centres offers a large variety of extension- and reduction adaptors, enabling assembling of tools with different lengths and design characteristics regardless of the machine interface (SK, HSK, Big Plus). The modularity function means less need for expensive special tools with long delivery times
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Cast iron turning

Cast Iron Turning

  • types of cast iron Grey Cast Iron (GCI) Nodular Cast Iron (NCI) Malleable Cast Iron (MCI) Compacted Graphite Iron (CGI)
The first choice should be the GC3200 grade series and -WMX geometry for finishing and medium operations. For roughing, -KR is the strongest and first choice geometry.CC620: For high speed finishing of grey cast irons in stable and dry conditions.Grade CC650 (mixed ceramic) is recommended for finishing under stable conditions, and CC6190 (SiN-ceramic) for medium and rough machining.If possible, use coolant in continuous machining, and use dry machining on interrupted cuts. The grade CC650 is the exception, it should be machined dry at all times.
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Hard part turning

Hard Part Turning
  • Benefits Increased productivity. Lower costs per part. Complex component shapes machined in one set-up.
Turning steel with a hardness over 45 HRc (typically within the range of 55-68 HRc) is defined as hard part turning and is a cost efficient alternative to grinding. Hard part turning has been proven to reduce machining time and costs by 70% or more, and also offers improved flexibility, better lead times and higher quality.
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Cutting fluid and coolant

Cutting Fluid And Coolant
Chip evacuation, cooling and lubrication between the tool and the workpiece material are primary functions of cutting fluid. From an environmental and manufacturing cost perspective dry machining is best. However many applications require coolant for tolerance, surface and machinability. If coolant is required then it should be optimized to maximize the potential.
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Hard part Cutting tool

Hard Part Cutting Tool
Hard part turning is a well accepted method. Typical parts are brake rotors, transmission gears, steering pinions, valve seats, pistons, cylinder liners and clutch housings. CC650 : For high speed finishing in stable conditions. Can also be used in semi-finishing operations of high temperature alloys in applications where there is some instability.CC670: Roughing to semi-finishing, interrupted cuts.CC6050: Semi-finishing, continuous cuts.
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steel turning

Steel Turning

The machinability of steel differs depending on alloying elements, heat treatments and manufacturing processes (forged, cast etc.). Steels can be categorized as unalloyed, low alloyed and high alloyed, all of which affect the machining recommendations for turning.
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Cutting data

Cutting Data

Start at a low feed to ensure insert security and surface finish, increase feed to improve chip breaking Run at a cutting depth larger than the nose radius. This will minimize the radial deflection of the insert, which is important in internal machining Setting the cutting speed too low will result in inadequate tool life. Always run at the highest possible cutting speed, vc mmin (ftmin)
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Austempered Ductile Iron (ADI)

Austempered Ductile Iron (ADI)
A 40-50% reduction in tool-life compared to NCI can be expected. Tensile strength and ductility of ADI are near to steel, but the chip formation process classifies ADI as a ductile iron (segmented chip formation). High thermal and mechanical loads, due to high strength and ductility, will concentrate wear near the cutting edge, due to the segmented chip formation process, and wear on the top rake. Hardening during chip formation results in high dynamic cutting forces. The cutting edge temperature is a strong factor for determining wear. Grades to use are 3210 or 3225. The preferred geometries are -KF, -KM, -KR and -KRR. When finishing, consider wiper geometry WMX.
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High alloyed steel

High Alloyed Steel

High alloy steels include carbon steels with a total alloy content over 5%. The group includes both soft and hardened materials (below 50 HRc). Machinability decreases at higher alloy contents and hardnesses. As for the low alloyed steels, the first choice are the steel grades (4200 and 4300 series) of grades and the steel geometries (-PF, -PM, -PR). For good surface finish needs, use the wiper geometries -WF and -WMX.
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boring Silent Tools

Boring Silent Tools
  • Benefits Productivity gains of 50-200% Strong dedicated interface between bridge and damped adaptor Improved surface finish Improved process security
Problems that originate from vibrations are frequently encountered in boring and other operations, especially when machining with long overhangs. The vibrations may cause bad surface texture, insufficient accuracy, loss of productivity, increased insert and machine tool wear, as well as noise.
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grey cast iron

Grey Cast Iron
Grey cast iron has the graphite in typical flake form, and the main characteristics are: low impact strength (brittle behavior); good thermal conductivity, low heat in cutting process. Grey cast iron has low impact strength, generates low cutting forces and the machinability is very good. Wear is created in the cutting process only by abrasion; there is no chemical wear. Grades to use are 3210 or 3225. The preferred geometries are -KF, -KM, -KR and -KRR. When finishing, consider wiper geometry -WMX.
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Heat resistant super alloys

Heat Resistant Super Alloys
A super alloy is an alloy that exhibits excellent mechanical strength and resistance to creep (tendency for solids to slowly move or deform under stress) at high temperatures; good surface stability; and corrosion and oxidation resistance. Heat resistant super alloys (HRSA) can be divided into four material groups; nickel-based, iron-based, cobalt-based and titanium alloys. Titanium can be pure or with alpha and beta structures. The machinability of both HRSA and titanium is poor, especially in aged conditions, which impose particular demands on the cutting tools.
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Aluminium Alloys

Aluminium Alloys
Inserts with a positive basic shape and sharp edges should always be used. Use the AL-geometry. GC1115 is a high wear resistance, recommended for roughing.H10 is uncoated and is the first choice grade in most cases, from roughing to finishing.For finishing under stable conditions, the polycrystalline diamond (PCD) tipped insert grade CD10 is recommended. CD10 withstands built-up edge better than carbide grades. It provides a good surface finish and also a longer tool life.
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Low alloyed steel

Low Alloyed Steel

Machinability for low alloyed steels is dependent on alloy content and the heat treatment (hardness). For all materials in this group, the most common wear mechanisms are crater and flank wear. Because hardened materials produce higher heat in the cutting zone, plastic deformation is also a common wear mechanism.
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Silent Tools for turning

Silent Tools For Turning
  • Features Silent Tools unique dampening mechanism Internal coolant through the bar Flexibility with the modular SL interface Long reach length up to 14 x D
Silent Tools are bars and adaptors with highly advanced dampening qualities. These tools enable good productivity and stable machining in all turning operations. Within the assortment you will find steel adaptors that enable machining up to 10x bar diameter, carbide reinforced adaptors optimized for overhangs up to 14x bar diameter and also dedicated carbide adaptors for narrow entries and hard to reach seats.
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