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Ultra High Versatility / Universal Carbide Milling Inserts APMT1604PDER For Shoulder Milling

Basic Information
Place of Origin: CHINA
Brand Name: MMM
Certification: ISO 9001
Model Number: APMT1604PDER
Minimum Order Quantity: 10 PCS
Price: USD
Packaging Details: Internal Plastic Box Packaging
Delivery Time: 5-10 Days
Payment Terms: L/C, T/T
Supply Ability: 1.000.000 PCS/Month
Detail Information
Material: Cemented Carbide Coating: PVD
Processing Material: Steel, Stainless Steel, Hardened Steel Application: Various Milling
Standard: ISO Grade: Various
Type: APMT1604PDER Chipbreaker: Multiple Choices
High Light:

custom carbide inserts

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round carbide cutter inserts


Product Description

Carbide Milling Inserts APMT1604PDER for Shoulder Milling with Ultra High Versatility / Universal

 

 

  • Excellent Performance, Superior Versatility, High Cost Performance
  • Core Products, Perfect Replacement for Japanese & Korean Products

 

 

Feature Advantage:

  • Completely replace the mainstream products of Japan and South Korea.
  • The APMT* series of inserts are extremely versatile and are widely used in most milling applications such as face milling, shoulder milling, pocket milling, slot milling, and side milling.
  • The APMT1604PDER is used for milling tools with larger diameters, milling of larger faces and parts. Greatly reduced tool inventory specifications and tool change times during machining.
  • Comprehensive consideration of various factors, a variety of chip-breaker design, a reasonable combination of a variety of ideal coatings, the insert in the low carbon steel, die steel, high alloy steel, high hardness steel, stainless steel and other materials have excellent performance .
  • Under the conditions of complex working conditions and lack of rigidity, the adaptability is strong, and the toughness is guaranteed under the premise of taking care of wear resistance, and it is not easy to collapse.

 

  • Grade:

 

 

Grade

 

Coating

 

Processing material

 

Application

 

Equivalent Grade

MP1215 PVD

Steel

Stainless Steel

General

VP15TF / MITSUBISHI

DP5320 / Duracarb

MP1315 PVD

Steel

Stainless Steel

General

VP15TF / MITSUBISHI

DP5320 / Duracarb

MP1415 PVD Hardened Steel HRc>45

VP15TF / MITSUBISHI

DP5320 / Duracarb

 

  • Chip-breaker:

 

 

Type

 

Chip-Breaker

 

Equivalent Product

APMT1604PDER H2 APMT1135PDER-H2 / MITSUBISHI
APMT1604PDER M2 APMT1135PDER-M2 / MITSUBISHI
APMT1604PDER TT APMT1135PDER / Duracarb
APMT1604PDER MM General Purpose

 

Technical Information:

  • Milling is the most flexible machining method available, and it can process almost any shape.
  • Milling completes metal cutting by rotating a multi-cutting tool to perform a programmable feed motion in almost any direction along the workpiece. This cutting action makes milling an effective general-purpose machining method.
  • The choice of machining methods on multi-spindle machines is no longer easy to choose: in addition to all conventional applications, milling is undoubtedly competitive for machining holes, cavities and surfaces commonly used for turning or thread turning. .
  • The disadvantage of milling flexibility is that there are many variables in the process, the factors to be considered increase, the situation is more complicated, and the optimization brings more challenges.
  • Modern milling is a very common method of machining. With the continuous development of machine tools, milling has evolved into a versatile method for processing a large number of different structural products.
  • The development of modern tools also offers more possibilities, and through the indexable inserts and solid carbide technology, productivity, reliability and quality consistency can be improved.
  • With a certain way of cutting, each cutting edge of the tool can remove a certain amount of metal, so that chip formation and chip removal are no longer a top priority.
  • The most common milling applications are available for generating planes. However, with the increasing number of five-axis machining centers and multi-tasking machines, other processing methods and surface processing methods have also been greatly developed.
  • From the point of view of the part or from the point of view of the tool path, the main types of milling operations include:
    1. Face milling
    2. Shoulder milling
    3. Cavity milling
    4. Profile milling
    5. Groove milling
    6. Turning
    7. Thread milling
    8. Slope milling
    9. Large feed milling
    10. Plunge milling
    11. Parting
    12. Spiral interpolation milling
    13. Circular interpolation milling
    14. Cycloidal milling

 

Milling Application Tips:

  • Check power capability and machine rigidity and ensure that the machine can make the most of the required tool diameter.
  • Cutting on the spindle with the shortest possible tool overhang.
  • Use the correct tool pitch for cutting to minimize the number of inserts involved in the cut to avoid vibration, while on the other hand, for narrow workpieces or when milling exceeds space, make sure the inserts are adequate.
  • Be sure to use the correct feed per insert to achieve the correct cutting action with the recommended maximum chip thickness.
  • In any case, the use of indexable inserts with positive rake grooves provides smooth cutting and lowest power consumption.
  • Climb milling is recommended whenever possible.
  • Select the correct tool diameter that corresponds to the width of the workpiece.
  • Choose the most appropriate lead angle.
  • Position and clamp the cutter correctly.
  • Follow insert maintenance recommendations and monitor tool wear.
  • If you need to consider the use of coolant, milling without coolant can generally be done very well.

 

Recommended Cutting Parameters:

  • The following cutting parameters are recommended range values ​​and should be adjusted as appropriate after considering the following factors:
    • The specific physical properties of the material being processed.
    • The actual condition of the part blank.
    • The power and rigidity of the machine tool.
    • Clamping rigidity of the tool and workpiece.
    • Balance between tool life and machining efficiency.

 

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