TAKISAWA TMT-4500S(T) HORIZONTAL MACHINING CENTER

TAKISAWA TMT-4500S(T) TAKISAWA TMT-4500S(T) HORIZONTAL MACHINING CENTER equipment image

Equipment Overview

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OEM
TAKISAWA
Model
TMT-4500S(T)
Year of Manufacture
-
Category
HORIZONTAL MACHINING CENTERS

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Technical Description

The TAKISAWA TMT-4500S(T) is a high-performance horizontal machining center featuring dual main spindles, each with a maximum turning diameter of 24.75", turning length of 78.7", and a 12" chuck diameter. Both spindles operate at up to 3,200 RPM, powered by 49.3 HP motors. The machine supports a maximum swing of 32.25" and bar capacity of 3.54". It includes a primary swivel spindle automatic tool changer (ATC) with up to 30 turning and 30 rotary tools, capable of rotary tool operation at 12,000 RPM and 29.3 HP. A secondary lower turret holds up to 8 turning tools, with simultaneous cutting of one tool allowed. The milling and drilling functions are standard on-center, off-center, and feature both 'C' and 'Y' axis capabilities. The machine offers 6-axis CNC control enabling complex multi-task machining processes. Axis travels include 32.25" (X), 17" (Y), and 78.7" (Z), all with rapid traverse speeds of 1,574 inches per minute, allowing efficient and versatile machining operations. These specifications facilitate heavy-duty turning combined with milling and drilling in a single setup, enhancing productivity and precision for a wide range of manufacturing tasks. The dual-spindle configuration further supports simultaneous or independent control, optimizing cycle times and throughput for high-mix or high-volume production environments.

Technical Attributes

Y-Axis Travel
17.00 ''
Max Spindle Speed
3,200.00
X-Axis Travel
32.25 ''
# of Axes
6.00
Spindle Power
49.30 HP
Z-Axis Travel
78.70 ''

Data Accuracy and Verification

Specifications and technical details are compiled from manufacturer documentation, historical records, and third-party industry sources. While care is taken to ensure accuracy, this information is provided for reference purposes only and may contain errors or omissions. Users should independently verify all details before relying on them.

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