INDUSTRIAL SPRING (24-27.03.2026)
STOM-TOOL - BLECH & CUTTING - LASER - ROBOTICS - FIX, Welding, Expo-Surface, Fluid Power, Control-Stom, 3D Printing Days
TAKIMSAN METAL KESİCİ TAKIMLAR San. Tic. Ltd. Sti.
- Sanayi, Kozalı Cd. Çarşı Yapı Sitesi A blok No: 16, TR-41040 IZMIT / Kocaeli, Turkey
- info@takimsanmetal.com
- www.trmcuttingtools.com
Description
TAKIMSAN, under the brand TRM ( Technical Revolution in Manufacturing), is a pioneering Turkish company that manufactures all kinds of solid
carbide tools with cutting-edge technology. Our way of working reflects our
core values. Since its establishment in 2012, our company has been built on quality, flexibility, and service. Every solution we provide is thoroughly tested and validated to ensure it meets customer expectations–because at TAKIMSAN, quality is at
the core.
At TAKIMSAN, WE CREATE SOLUTIONS.
Flexibility is added value: It is the ability to combine ideas, technology, precision, and tradition at the
highest level to solve customer challenges. The engineering studies and prototypes developed in our
R&D centre are the first steps in shaping our solutions.
TRM tools provide concrete, unique, and repeatable answers to every specific need. From the very beginning
until today, TAKIMSAN has always meant reliability.
carbide tools with cutting-edge technology. Our way of working reflects our
core values. Since its establishment in 2012, our company has been built on quality, flexibility, and service. Every solution we provide is thoroughly tested and validated to ensure it meets customer expectations–because at TAKIMSAN, quality is at
the core.
At TAKIMSAN, WE CREATE SOLUTIONS.
Flexibility is added value: It is the ability to combine ideas, technology, precision, and tradition at the
highest level to solve customer challenges. The engineering studies and prototypes developed in our
R&D centre are the first steps in shaping our solutions.
TRM tools provide concrete, unique, and repeatable answers to every specific need. From the very beginning
until today, TAKIMSAN has always meant reliability.
Products
Custom Carbide Cutting Tools Designed to Meet Customer Needs
Custom Carbide Cutting Tools Designed to Meet Customer Needs
Custom Carbide Cutting Tools Designed to Meet Customer Needs
Every production process is different, and standard cutting tools may not always provide optimum performance. Therefore, custom-designed carbide cutting tools are developed to ensure maximum efficiency, high process reliability, and long tool life in machining operations.
Application-specific cutting tools are designed as a result of engineering studies, taking into account the type of material to be machined, machine specifications, cutting parameters, and production objectives. High performance is achieved even under challenging machining conditions thanks to optimized cutting geometry, special coating technologies, and high-quality micro-grained carbide materials.
Thanks to custom-designed cutting tools, shorter cycle times, higher material removal capacity, and longer tool life can be achieved in production processes, si
Custom Carbide Cutting Tools Designed According to Customer Needs – Technical Details
While standard cutting tools can provide sufficient performance in many applications, application-specific carbide cutting tools offer significant advantages in production processes requiring high productivity and process optimization. Custom cutting tool designs are developed as a result of engineering studies, taking into account the material properties, part geometry, tolerance requirements, machine capacity, and production objectives.
Material and Carbide Quality
The carbide quality used in custom cutting tools is selected according to the hardness, wear resistance, and fracture toughness required by the application.
Micro-grained or ultra-micro-grained tungsten carbide
High temperature resistance and wear resistance
High fracture toughness
Carbide quality options suitable for different machining conditions
Cutting Geometry Design
The tool geometry is designed to optimize chip formation and cutting forces.
Special helix angles (30°–45° depending on the application)
Variable helix and variable tooth spacing
Reinforced or sharp cutting edge design
Groove shape that optimizes chip ev
While standard cutting tools can provide sufficient performance in many applications, application-specific carbide cutting tools offer significant advantages in production processes requiring high productivity and process optimization. Custom cutting tool designs are developed as a result of engineering studies, taking into account the material properties, part geometry, tolerance requirements, machine capacity, and production objectives.
Material and Carbide Quality
The carbide quality used in custom cutting tools is selected according to the hardness, wear resistance, and fracture toughness required by the application.
Micro-grained or ultra-micro-grained tungsten carbide
High temperature resistance and wear resistance
High fracture toughness
Carbide quality options suitable for different machining conditions
Cutting Geometry Design
The tool geometry is designed to optimize chip formation and cutting forces.
Special helix angles (30°–45° depending on the application)
Variable helix and variable tooth spacing
Reinforced or sharp cutting edge design
Groove shape that optimizes chip ev
High-Precision Carbide Reamers / std.+custom
High-Precision Carbide Reamers / std.+custom
High-Precision Carbide Reamers
Solid carbide reamers are precision cutting tools developed to achieve high-precision hole tolerances and superior surface quality. Thanks to the micro-grained tungsten carbide material and optimized cutting geometry, they provide high accuracy, stable cutting performance, and long tool life in hole finishing operations.
The special cutting edge design and balanced tooth geometry minimize vibrations during the reaming process, helping to achieve high surface quality and repeatable dimensional accuracy. Furthermore, advanced coating technologies increase the wear resistance of the tool, offering reliable performance even under demanding machining conditions.
Carbide reamers are preferred in hole machining operations requiring high precision, especially in the automotive, aerospace, defense, mold manufacturing, and general machining industries.
Key Featur
Carbide Reamers – Technical Specifications
Material: Micro-grained or ultra-micro-grained tungsten carbide
Tolerance: High-precision hole machining (H7 / H8 tolerance range)
Number of Teeth: 4 – 8 cutting edges depending on the application
Hield Angle: Straight flute or 5° – 30° helical flute options
Coating: PVD coating options (AlTiN, AlCrN, etc.)
Flue Design: Optimized flute geometry providing stable cutting and efficient chip evacuation
Cooling: Internal or external cooling options
Standards: Shaft options conforming to DIN 6535, DIN 6537 and ISO standards
Surface Quality: High surface quality after reaming (Ra ≈ 0.8 – 1.6 µm)
Purpose of Use: To provide high dimensional accuracy, stable machining and long tool life in hole finishing operations.
Material: Micro-grained or ultra-micro-grained tungsten carbide
Tolerance: High-precision hole machining (H7 / H8 tolerance range)
Number of Teeth: 4 – 8 cutting edges depending on the application
Hield Angle: Straight flute or 5° – 30° helical flute options
Coating: PVD coating options (AlTiN, AlCrN, etc.)
Flue Design: Optimized flute geometry providing stable cutting and efficient chip evacuation
Cooling: Internal or external cooling options
Standards: Shaft options conforming to DIN 6535, DIN 6537 and ISO standards
Surface Quality: High surface quality after reaming (Ra ≈ 0.8 – 1.6 µm)
Purpose of Use: To provide high dimensional accuracy, stable machining and long tool life in hole finishing operations.
solid carbide end mills
solid carbide end mills
High-Performance Carbide End Mills
High-performance solid carbide end mills are developed to provide maximum efficiency, precision, and long tool life in modern machining operations. Thanks to advanced geometry design, optimized cutting edge structure, and high-quality micro-grained carbide material, they offer superior performance even under demanding machining conditions.
Special cutting geometries developed for different material groups provide high material removal capacity and stable cutting performance when machining steel, stainless steel, cast iron, aluminum, and high-alloy materials.
High-performance coating technologies increase tool wear resistance, improve heat resistance, and significantly extend tool life. This results in lower tool costs and higher process reliability in production processes.
In addition to the standard product range, application-specific end mill solu
High-Performance Carbide End Mills – Technical Specifications
High-performance solid carbide end mills are precision cutting tools developed to provide high material removal capacity, stable cutting performance, and long tool life. Thanks to their micro-grained carbide structure and optimized cutting geometry, they offer vibration-free and reliable machining even at high cutting speeds.
The variable helix and variable tooth spacing geometries used in the cutting edge design minimize vibrations during cutting, ensuring a stable machining process, especially in deep groove milling, flank milling, and pocket milling operations.
Technical Specifications
Material Structure
Micro-grained or ultra-micro-grained tungsten carbide
High hardness and wear resistance
Thermal stability and fracture resistance
Cutting Geometry
2, 3, 4, or 5-edge design options
30° – 45° helix angles
Variable helix and variable tooth spacing
Sharp or reinforced cutting edge
Coating Technologies
PVD-based high-performance coatings
AlTiN, AlCrN, or nano-composite coating options
High temperature resistance (up to 800–1000°C)
Applications
Side milling
Grooving
Pocket milling
Profile machining
Hi
High-performance solid carbide end mills are precision cutting tools developed to provide high material removal capacity, stable cutting performance, and long tool life. Thanks to their micro-grained carbide structure and optimized cutting geometry, they offer vibration-free and reliable machining even at high cutting speeds.
The variable helix and variable tooth spacing geometries used in the cutting edge design minimize vibrations during cutting, ensuring a stable machining process, especially in deep groove milling, flank milling, and pocket milling operations.
Technical Specifications
Material Structure
Micro-grained or ultra-micro-grained tungsten carbide
High hardness and wear resistance
Thermal stability and fracture resistance
Cutting Geometry
2, 3, 4, or 5-edge design options
30° – 45° helix angles
Variable helix and variable tooth spacing
Sharp or reinforced cutting edge
Coating Technologies
PVD-based high-performance coatings
AlTiN, AlCrN, or nano-composite coating options
High temperature resistance (up to 800–1000°C)
Applications
Side milling
Grooving
Pocket milling
Profile machining
Hi
solid carbide drills
solid carbide drills
High-Performance Carbide Drill Bits
High-performance solid carbide drill bits are developed for precise and efficient hole machining operations on CNC machines. Thanks to their micro-grained tungsten carbide structure and optimized cutting geometry, they provide stable drilling performance and long tool life even at high cutting speeds.
The advanced flute design and cutting edge geometry ensure fast and safe chip evacuation, increasing process reliability, especially in deep hole operations. High-performance PVD coating technologies enhance wear resistance, increasing the tool's durability against high temperatures and harsh machining conditions.
Solid carbide drills offer high-precision and repeatable hole quality in the automotive, aerospace, defense, mold making, and general machining industries. In addition to the standard product range, custom-designed drill solutions are also de
High-Performance Carbide Drill Bits – Technical Specifications
High-performance solid carbide drill bits are precision cutting tools developed to provide stable hole machining at high cutting speeds, long tool life, and high process reliability. High hardness, wear resistance, and thermal stability are achieved thanks to the micro-grained tungsten carbide material and optimized cutting geometry.
The special tip angle, cutting edge design, and flute shape used in the drill geometry ensure efficient chip evacuation, reducing vibration and improving hole quality, especially in deep hole drilling operations. This ensures a stable machining process even at high feed rates.
Material Structure
Micro-grained or ultra-micro-grained tungsten carbide
High hardness and wear resistance
High temperature resistance
High fracture toughness
Geometric Features
118°, 130°, or 140° tip angles
Optimized cutting edge and center cutting geometry
Low-friction chip channel design
Body structure that enhances stability
Drilling Capacities
3×D, 5×D, 8×D, and deeper drilling options
High-accuracy hole tolerances
High surface quality
Coating Technologies
PVD coating technology
AlTiN, AlCrN,
High-performance solid carbide drill bits are precision cutting tools developed to provide stable hole machining at high cutting speeds, long tool life, and high process reliability. High hardness, wear resistance, and thermal stability are achieved thanks to the micro-grained tungsten carbide material and optimized cutting geometry.
The special tip angle, cutting edge design, and flute shape used in the drill geometry ensure efficient chip evacuation, reducing vibration and improving hole quality, especially in deep hole drilling operations. This ensures a stable machining process even at high feed rates.
Material Structure
Micro-grained or ultra-micro-grained tungsten carbide
High hardness and wear resistance
High temperature resistance
High fracture toughness
Geometric Features
118°, 130°, or 140° tip angles
Optimized cutting edge and center cutting geometry
Low-friction chip channel design
Body structure that enhances stability
Drilling Capacities
3×D, 5×D, 8×D, and deeper drilling options
High-accuracy hole tolerances
High surface quality
Coating Technologies
PVD coating technology
AlTiN, AlCrN,
Brands
Takımsan Metal Kesici Takımlar
TRM (Technical Revolution in Manufacturing)