行业组件数据 · 2026

锌合金基体

High-purity zinc alloy matrix for continuous casting billets in industrial applications

技术定义与适配语境
典型 锌合金基体 会按材料、尺寸公差、适配关系和失效风险在 基础金属制造 中评估。

A specialized zinc alloy matrix engineered for continuous casting processes, serving as the foundational material for producing high-purity zinc alloy billets. This matrix is formulated with precise elemental composition to ensure optimal fluidity, solidification characteristics, and mechanical properties during casting operations.

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组件规格

定义
A specialized zinc alloy matrix engineered for continuous casting processes, serving as the foundational material for producing high-purity zinc alloy billets. This matrix is formulated with precise elemental composition to ensure optimal fluidity, solidification characteristics, and mechanical properties during casting operations.
工作原理
The zinc alloy matrix functions as the molten material source in continuous casting systems. It is heated to a precise temperature above its liquidus point, then continuously fed through a water-cooled mold where controlled solidification occurs, forming a solid billet with consistent cross-section and minimal defects.
材料
Zinc alloy with primary composition: Zn ≥ 99.995%Al 0.02-0.05%Cu ≤ 0.002%Pb ≤ 0.003%Cd ≤ 0.002%Fe ≤ 0.002%Sn ≤ 0.001%
Density
7.14 g/cm³
Hardness
40-45 HB
Elongation
15-25%
Purity Grade
High-Purity Special (HPS)
Melting Point
419.5°C
Tensile Strength
120-140 MPa
Thermal Conductivity
116 W/m·K
Electrical Conductivity
28% IACS
标准
ISO 301DIN 1743ASTM B240EN 1774

行业分类与别名

锌合金基体 的常用贸易名称、技术标识和检索关键词。

zinc alloy matrixcontinuous casting billethigh-purity zincindustrial zinc alloycasting materialzinc matrix specifications锌合金基体Zinc Alloy Matrix基础金属制造 锌合金基体

上级产品

该组件会出现在以下整机或工业产品中。

工业级高纯度锌合金连续铸造坯料
通过连续铸造工艺生产的工业应用高纯度锌合金坯料
查看产品详情 ->

FMEA · 风险与缓解

诱因 → 失效模式 → 工程缓解

Inconsistent temperature control during melting->Poor fluidity leading to incomplete mold filling->Implement automated temperature monitoring with ±2°C precision and redundant heating elements
Contamination from crucible or handling equipment->Increased impurity levels affecting mechanical properties->Use dedicated high-purity ceramic-lined crucibles and implement clean room handling procedures
Inadequate cooling rate in continuous casting mold->Coarse grain structure reducing tensile strength->Optimize water cooling system with flow rate control and temperature feedback

工业生态与工程逻辑

兼容对象
Continuous casting machines from SMS group, Danieli, Primetals TechnologiesInduction melting furnacesAutomated billet handling systems
可替换件
Zamak alloys (Zamak 3, Zamak 5)ZA alloys (ZA-8, ZA-12)High-grade zinc from Nyrstar, Glencore, Teck Resources
0
Hot tearing during solidification
1
Zinc vapor formation at high temperatures
2
Dross formation affecting surface quality
3
Dimensional instability due to thermal contraction

合规与检测

tolerance
Chemical composition: ±0.001% for major elements, ±0.0005% for trace elements; Dimensional tolerance: ±0.5mm for billet diameter
test method
Spectrochemical analysis per ASTM E1251, metallographic examination per ASTM E3, mechanical testing per ASTM E8/E8M

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采购评估维度

不是客户评论,也不是实时热度。以下维度用于前期 RFQ 准备和供应商评估。

技术文档
4/5
制造能力
4/5
可检验性
5/5
供应商透明度
3/5

这些分值是采购评估维度示例,不代表真实客户评分、具体国家买家反馈或实时询盘。

相关组件

合金元素
Alloying elements are metallic or non-metallic substances added to steel to enhance specific mechanical, chemical, or physical properties.
氧化铝组件
Alumina component for continuous casting mold powder systems in steel manufacturing.
铝添加剂
Aluminum additive used to enhance properties of forging-grade magnesium alloy billets.
铝合金化元素
Aluminum alloying elements are metallic additives used to modify the properties of aluminum in industrial-grade zinc-aluminum master alloys.
铝基体
Aluminum matrix is the continuous metallic phase in aluminum matrix composites, providing structural integrity and thermal/electrical conductivity in hot-forged aluminum alloy billets.
铝痕
Aluminum trace is a controlled impurity component in high-purity ferrotitanium master alloys used for precise titanium content adjustment in steel production.

常见问题

What is the primary advantage of using high-purity zinc alloy matrix in continuous casting?

High-purity zinc alloy matrix ensures superior surface quality, reduced porosity, and enhanced mechanical properties in cast billets, leading to improved downstream processing and final product performance.

How does the zinc alloy matrix composition affect casting performance?

Precise control of alloying elements like aluminum improves fluidity and reduces hot tearing, while minimizing impurities like lead and cadmium prevents brittleness and ensures environmental compliance.

What industries commonly use zinc alloy continuous casting billets?

Automotive components, electrical connectors, hardware fittings, and corrosion-resistant applications in construction and marine industries.

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初步技术归类
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URN:CNFX:ME:UNIT:ZINC_ALLOY_MATRIX