SH200-R

Le SH200-R is a horizontal endless diamond wire cutting machine purpose-built for slicing oversized brittle materials such as quartz, radiation shielding glass, and aerospace-grade optical components. With a wire length of 8.3 meters and support for workpieces up to 2000 mm in diameter, this machine delivers exceptional surface quality and stable performance across industrial-scale cutting tasks.

Key Features of this large-quartz-cutting-machine

Purpose-Built for Ultra Large Workpiece
Engineered specifically for Workpieces up to Ø2000 × 500 mm, such as large quartz cylinders and optical glass plates.
Coupe sans fin au fil diamanté
Utilizes a high-speed endless diamond wire system for stable, smooth, and chip-free cutting of fragile graphite materials.
Horizontal Cutting Structure
Maximizes stability and accessibility for long or heavy materials, reducing vibration and material deformation.
Low Kerf Loss, High Precision
Achieves clean slicing with kerf widths as narrow as 0.8 mm, minimizing material waste and reducing edge damage.
Easy Loading of Elongated Workpieces
Side-loading platform allows easy placement and alignment of large parts using cranes or rollers.
Ultra-Low Cutting Force
Abrasive cutting method reduces mechanical stress on delicate edges, preventing chipping or microfractures
Integrated Oil Mist Recovery System
Fully enclosed design with built-in oil mist collection for a cleaner, safer working environment—ideal for glass and optical material processing.
Automatic Lubrication + Water Recycling
Built-in lubrication ensures durability; closed-loop water system minimizes environmental impact.

Témoignages de clients

SH200-R TECHNICAL SPECIFICATION

Non.	Nom	Spécifications
1	Maximum Workpiece Dia (mm)	2000
2	Maximum Workpiece Dia (mm)	2000
3	Hauteur maximale de la pièce (mm)	500
4	Course de l'axe X de la table de travail (mm)	1015
5	Déplacement de l'axe Y de la table de travail (mm)	550
6	Vitesse maximale du fil diamanté (m/s)	51
7	Minimum Feed Increment X-Axis (mm)	0.01
8	Incrément d'avance minimum sur l'axe Y (mm)	0.01
9	Repeat Positioning Accuracy X-Axis (mm)	0.01
10	Répéter la précision du positionnement sur l'axe Y (mm)	0.01
11	Consommation électrique totale (kW)	5
12	Source de courant	380V 50Hz
13	Taille de la machine (mm)	400027532130
14	Poids de la machine (kg)	4000
15	Pression atmosphérique (MPa)	0.5-0.8

See the SH200-R in Action at Customer Sites

Watch how our global customers use the Extra-large quartz cutting machine in real production environments.
These on-site videos showcase the machine's slicing performance, smooth operation, and material-saving vacuum clamping system in action.

Cutting Methods for 2-Meter Diameter Optical Glass: A Practical Comparison

Scie à fil diamanté sans fin Recommended

Avantages :
- Capable of continuously cutting large cylindrical or thick optical glass blocks
- Narrow kerf (0.4–1.0 mm), minimal material loss
- Delivers low-stress, chip-free, mirror-quality surfaces
- Compatible with rotating workpiece setups for faster and more uniform cuts
Best For:
Oversized optical glass, quartz blocks, and radiation shielding glass with diameters >1 meter and thickness >100 mm

Multi-Wire Saw Limitée

Avantages : High-efficiency slicing for batch wafer production
Désavantages:
- Fixed cutting direction; mainly for wafer-level slicing
- Difficult to clamp and handle oversized blocks
Limites : Not suitable for segmenting large-diameter glass blocks

Scie à ruban diamant Partially Applicable

Avantages : Flexible machine structure, supports long cutting strokes
Désavantages:
- Wide kerf, rough cutting surfaces, prone to edge chipping
- Low cutting speed and efficiency
Use Case: Acceptable for coarse pre-cutting of 2-meter glass, but not suitable for high-precision applications

Abrasive Waterjet Not Recommended

Limites :
- Glass is thermally sensitive; waterjet may cause microcracks
- Risk of contaminating valuable glass with water and abrasive slurry
Use Case: Better suited for small composite materials, not large-diameter optical glass

Découpe au laser Not Suitable

Limites :
- Ineffective on thick optical glass
- High risk of edge fracture and poor surface quality
Use Case: Not viable for optical-grade segmenting of large glass blocks

Conclusion:

For cutting 2-meter diameter optical glass, le scie à fil diamanté sans fin stands out as the most reliable and effective solution.
It offers unmatched capability in terms of size compatibility, surface quality, cutting safety, and stability. This makes it ideal for high-value applications in aerospace, radiation shielding, and scientific research involving large-format optical materials.

COMPARAISON DE L'EFFET DE SURFACE DE COUPE

The Excellent cutting surface effect of SH series Cutting Wire Saw

TYPICAL APPLICATIONS OF THIS EXTRA LARGE QUARTZ CUTTING MACHINE

1️⃣ Large Quartz Crystals

Cutting oversized quartz ingots and blocks used in optics, semiconductors, and photonics
Ideal for pre-slicing high-purity materials before polishing or coating

2️⃣ Radiation Shielding Glass

Processing of leaded or high-density glass used in:
- Nuclear research facilities
- Medical CT or radiation shielding windows
- Aerospace radiation protection systems

3️⃣ Aerospace-Grade Optical Components

Cutting ultra-clear, low-expansion glass materials used in:

Spaceborne optical windows
Satellite sensor shields
High-altitude reconnaissance lens blanks

4️⃣ High-Purity Ceramics & Fused Silica

Slicing large blocks of alumina, fused silica, and other engineering ceramics
Used in vacuum systems, semiconductor processing, and precision optics

5️⃣ Infrared Transparent Materials

Pre-cutting IR window materials like ZnSe substrates, sapphire, or specialty glass composites
Demands flat, clean surfaces with minimal microcracking

6️⃣ Scientific Research Materials

Institutions using SH200-R for material preparation, such as:

Large-diameter fused silica windows
Custom radiation sensor panels
Experimental shielding components

WHY CHOOSE US

At Vimfun, we don't just assemble machines — we engineer them from the ground up. Every graphite cutting machine is built in-house with complete control over design, precision machining, quality testing, and final assembly. Here's what sets our manufacturing process apart:

High-Speed Endless Wire Cutting

Achieves cutting speeds up to 80m/s, boosting efficiency by over 50% compared to traditional wire saws.

High-Rigidity Cast Structure

Ensures outstanding stability and vibration resistance during heavy workpiece cutting, maintaining long-term accuracy.

High-Precision Guide Rails and Ball Screw

Achieving ±0.01mm positioning accuracy for ultra-precise slicing and complex contour processing.

Automatic Constant-Tension System

Dynamically adjusts wire tension to prevent breakage and extend wire life during long operations.

Micron-Level Feed Control

Supports ultra-thin slicing down to 0.1mm, ideal for advanced electronics and battery industries.

User-Friendly Smart Interface

PLC+Servo system with 10” touchscreen provides intuitive control, easy parameter setting, and automatic data saving.

Fully Enclosed Protective Design (Optional)

Reduces dust contamination, protecting critical components and extending equipment life.

Low Maintenance & Cost Efficiency

Modular Design

The equipment adopts a modular control architecture, making it easy to access and replace core components such as drivers, relays, and sensors. This design minimizes troubleshooting time and reduces overall downtime.

Low Maintenance & Cost Efficiency

Automatic Lubrication System

The machine features a smart lubrication system that automatically pumps lubricant to key motion components at preset intervals. This reduces mechanical wear, prevents seizure, and extends overall equipment lifespan.

Témoignages de clients

Semi-conducteur : Fabrication de graphite

SH200-R has dramatically improved our quartz cutting process. Its horizontal layout and wire stability gave us consistent results across large materials, and the built-in oil mist recovery keeps our workspace clean and compliant.

Questions fréquemment posées

Quelle est l'épaisseur maximale que la machine peut traiter pour la découpe ?

The machine is capable of cutting slices ranging from 0.1 to 100 mm in thickness, and can perform automated cutting once the program has been configured.

Quelle est la différence entre cette scie à fil et la scie à ruban ?

La vitesse de coupe serait similaire, mais la qualité de la surface de coupe de la scie à fil est bien meilleure et la perte de kerf est plus faible.

Comment la machine minimise-t-elle les pertes de matériau pendant la coupe ?

Le HorizonCrystal est équipé d'un fil diamanté de haute précision d'un diamètre de 0,35 à 0,8 mm, de sorte que le trait de coupe est très petit.

Quelle est la durée de vie prévue du câble diamanté et est-il remplaçable par l'utilisateur ?

La durée de vie du câble diamanté varie en fonction de l'utilisation et de la dureté du matériau. Pour le graphite, 1 pièce de fil de coupe peut couper environ 15 mètres carrés. Il est remplaçable par l'utilisateur et nous fournissons des conseils détaillés sur le remplacement du fil.

La machine nécessite-t-elle un environnement ou des conditions d'installation spécifiques ?

Pour la découpe du graphite, l'installation du client est normalement équipée d'un dépoussiéreur. Il peut être connecté à notre machine lors de son fonctionnement.

Quel type d'assistance technique et de garantie offrez-vous à l'achat de cet équipement ?

Nous offrons une garantie complète d'un an et une assistance technique vidéo ou sur site après l'achat pour garantir que votre machine fonctionne de manière optimale et que tout problème est résolu rapidement.

Prenez contact avec nous !

Ready to transform your graphite cutting process? Request a customized solution now.