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Debinding and Pre-Sintering Integrated Furnace

Product Details

Customization:	Available
After-sales Service:	1 Year
Warranty:	1 Year

Jiangsu Himalaya Semiconductor Co., Ltd.

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Gold Member Since 2023

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Product Description

Company Info.

Overview
Product Description
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Packaging & Shipping
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Basic Info.

Available Atmosphere

Inert Atmosphere (N2, CO2, Ar2, etc.)

Vacuum Level

High Vacuum, Low Vacuum, None.

Max Temperature

1200ºC

Heating Element

Resistance Wire

Transport Package

Wooden Case

Specification

0*0*0

Trademark

none

Origin

China

Product Description

Introduction

This furnace is used for the debinding and pre-sintering integrated process of 3D printing of alumina, zirconia, magnesia, and other ceramics, and can achieve hot air circulation auxiliary heating at low temperatures below 650°C, and five-sided thermal radiation heating at high temperatures above 650°C, with low temperature and good performance in high-temperature field uniformity.

Debinding and Pre-Sintering Integrated Furnace

Features

It has the functions of debinding and pre-sintering and can operate at low temperatures below 650°C and high temperatures between 650°C and 1100°C, with good temperature field uniformity in the furnace.
Set up a preheating system for hot air circulation to coordinate with five-sided heating radiation in the furnace.
The air intake system in the furnace adopts a porous ceramic preheating method, and the wind speed is accurately adjustable. Five-sided resistance wire heating in the furnace ensures high-temperature field uniformity.
The debinding furnace is equipped with a ceramic air duct, which can ensure the air intake of multiple material layers and make full use of fresh hot air to take away greasy gases.
It is equipped with VOC tail gas cracking equipment, with a cracking temperature of 900°C. It can decrease samples with regular loading to achieve complete gas cracking and zero pollution.
The airflow parameters during the debinding stage can be adjusted according to customer needs to meet the processing of different debinding amounts.
It has a quick cooling function, and the cooling rate can be adjusted according to different proportions of air volume to achieve an effective cooling rate and protect the product from the risk of cooling too quickly.

Applications

Ceramics Manufacturing: For producing high-performance ceramic parts, such as structural and electronic ceramics, effectively removing binders and pre-sintering materials.

Metal Powder Metallurgy: In powder metallurgy processes, these furnaces remove binders and pre-sinter metal powders to form dense metal components.

Composite Materials: Used in the production of composite materials to eliminate organic components from the matrix and achieve initial curing and shaping.

Biomaterials: In the manufacturing of bioceramics or metal implants, debinding and pre-sintering furnaces help ensure the materials' biocompatibility and mechanical properties.

Technical Parameters

model	Heating area (widthheightdepth) ( mm )	Maximum temperature ( ºC )	Working temperature ( ºC )	Power ( kW )	Power supply ( kW )
HMLA-TZH-334	300300400	1200	1100	12	380
HMLA-TZH-446	400400600	1200	1100	25	380
HMLA-TZH-558	500500800	1200	1100	36	380
HMLA-TZH-6612	6006001200	1200	1100	64	380