Die casting aluminum medium plate is a specialized aluminum component produced via high-pressure die casting, combining aluminum’s inherent advantages (легкий вес, коррозионная стойкость) with the precision and structural integrity of die casting. Unlike standard aluminum plates, it features customizable thicknesses (typically 2–20 mm), complex structural capabilities, and strict performance metrics—making it indispensable for industries ranging from consumer electronics to automotive. This article breaks down its core characteristics, material formulations, production workflow, сценарии применения, and industry trends, helping you leverage its potential for high-quality manufacturing.
1. Основные характеристики & Преимущества
Die casting aluminum medium plate stands out for its unique blend of performance and versatility. Below is a 总分结构 explaining its key traits, supported by specific data and comparative analysis:
1.1 Standout Properties
These properties address critical manufacturing needs, distinguishing it from traditional aluminum plates:
- Легкий вес & Высокая сила: Combines aluminum’s low density (2.7 G/CM³) with die casting-induced structural density. High-modulus formulations (with Si, Мг, Мнжен) достигать elastic modulus 80–90 GPa, tensile strength 300–360 MPa, и elongation ≥2.0% —outperforming standard aluminum plates (tensile strength 150–250 MPa).
- Excellent Physical Performance: Boasts thermal conductivity of 180–220 W/(м · к) (ideal for heat dissipation) and electrical conductivity of 30–40% IACS (suitable for electromagnetic shielding). Its natural oxide layer provides inherent corrosion resistance, withstanding 48-hour salt spray testing (за ASTM B117) без ржавчины.
- High Customization: Supports multi-cavity mold production (до 8 cavities per mold) for high-volume needs and personalized structural designs (НАПРИМЕР., integrated ribs, отверстия, or thin-walled sections down to 0.5 мм).
1.2 Advantage Over Traditional Materials
The table below contrasts die casting aluminum medium plate with standard aluminum plates and steel plates:
| Материал | Масса (G/CM³) | Предел прочности (МПА) | Теплопроводность (ж/(м · к)) | Расходы (Родственник) | Идеальные приложения |
| Die Casting Aluminum Medium Plate | 2.7 | 300–360 | 180–220 | Середина | 5G phone midboards, ЭВ батарея кронштейны |
| Standard Aluminum Plate (6061) | 2.7 | 150–250 | 160–180 | Низкий | Simple structural parts (НАПРИМЕР., shelf brackets) |
| Steel Plate (Q235) | 7.8 | 375–500 | 45–50 | Высокий | Heavy-duty load-bearing parts (НАПРИМЕР., машинные рамки) |
2. Material Formulation & Процесс подготовки
The performance of die casting aluminum medium plate depends on precise material 配比 and strict process control. Ниже приведен подробный срыв:
2.1 Key Material Formulations
Two primary alloy systems dominate, каждый из которых адаптирован к конкретным потребностям:
| Alloy Type | Композиция | Ключевые свойства | Идеальные приложения |
| High-Modulus Alloy | И (16–25%), Мг (1.0–1,5%), Мнжен (0.5–0,8%), Нб (0.05–0,2%), rare earths (Ce/La: 0.1–0,3%), П (0.01–0.03%, metamorphic agent), remainder Al | Высокая жесткость (E=80–90 GPa), Хорошая стабильность | 5G phone midboards, precision chassis brackets |
| Traditional Alloy (ADC12) | И (9.5–12%), Кузок (1.5–3.5%), Мг (0.3–0,6%), Фей (≤1.3%), remainder Al | Отличная плавность, низкая усадка (0.5–0,8%), рентабельный | Светодиодные радиаторы, Автомобильные детали интерьера |
2.2 Critical Preparation Steps
The production process follows a linear, rigorous workflow to ensure quality:
- Smelting Control:
- Heat aluminum ingots to 650–700°C in a ceramic-lined furnace (to avoid iron contamination).
- Add alloying elements in stages: Si first (melts at 1414°C), then Mg/Mn (low melting points), and finally rare earths/Nb (to refine grains).
- Refine with argon gas (скорость потока: 5 L/мин) для 15 minutes to remove hydrogen (≤0.15 mL/100g Al) and skim dross (oxide waste) to ensure purity.
- Die Casting Parameters:
- Температура формы: 180–220 ° C. (lower than conventional die casting to accelerate cooling and densify microstructure).
- Давление впрыска: 80–120 МПа (higher than standard die casting to fill thin sections).
- Удерживание давления: 50–70 МПа (maintained for 10–20 seconds to prevent shrinkage).
- После лечения:
- Обрезка: CNC trimming (tolerance ±0.03 mm) to remove sprues and runners.
- Поверхностная обработка: Options include electroplating (Ni/Cr: 5–10 μm thickness for aesthetics), electrophoresis (transparent/colored coatings: 10–15 μm for corrosion resistance), или полировка (Ra ≤0.8 μm for high-gloss applications).
- Quality Testing: 100% Проверка размерных (via CMM) and random metallographic analysis (to verify grain size ≤50 μm).
3. Ключевые сценарии применения
Die casting aluminum medium plate serves diverse high-demand industries, each leveraging its unique properties:
3.1 Потребительская электроника
- 5G Phone Midboards: Acts as the internal support structure, requiring high stiffness (E≥80 GPa) to withstand drop impacts (Для GB/T. 35465-2020) and thin thickness (2–3 мм) for device slimness. High-modulus alloys meet these needs, with integrated electromagnetic shielding to reduce signal interference.
- Computer Chassis Brackets: Provides structural support while integrating heat dissipation channels (thermal conductivity ≥180 W/(м · к)) to cool CPUs/GPUs. Its lightweight design reduces overall device weight by 20–30% vs. стальные кронштейны.
3.2 Автомобильная промышленность
- EV Battery Brackets: Secures lithium-ion batteries, requiring high strength (tensile strength ≥300 MPa) и коррозионная стойкость (to withstand battery electrolyte exposure). ADC12 alloy variants are cost-effective for high-volume production (100,000+ units/year).
- Body Components: Used in door frames and roof brackets, reducing vehicle weight by 10–15% (critical for EV range) and improving crash safety (energy absorption ≥20 kJ/m²).
3.3 Промышленное & Освещение
- LED Heat Sinks: Utilizes thermal conductivity (180–220 W/(м · к)) to dissipate heat from high-power LEDs (100–200 W), preventing overheating and extending LED lifespan to 50,000+ часы.
- Industrial Equipment Frames: Combines lightweight (reducing equipment transport costs) with stiffness (E≥75 GPa) to support heavy machinery components (НАПРИМЕР., насосные корпусы).
4. Контроль качества & Testing Standards
Strict quality control ensures consistent performance. Below is a list of key tests and standards:
- Chemical Composition Analysis: Optical Emission Spectroscopy (OES) verifies element content (tolerance ±0.1% for Si/Mg).
- Механическое тестирование: Тестирование на растяжение (per ASTM E8) for strength/elongation, and flexural testing (per ASTM D790) for stiffness.
- Microstructure Inspection: Metallographic analysis (4% nitric acid etch) to check for grain size (≤50 μm) and precipitated phase distribution (uniform Mg₂Si particles).
- Неразрушающее тестирование: Рентгеновская дефектоскопия (per ASTM E186) to identify internal porosity (≤2% volume), and eddy current testing (per ASTM E2434) для поверхностных дефектов (НАПРИМЕР., трещины, ямы).
5. Industry Trends & Будущий перспективы
Three trends are shaping the evolution of die casting aluminum medium plate:
- Технологические инновации: Полутвердое литье под давлением (SSDC) is gaining traction—processing aluminum at 50–60% solid fraction to enhance strength (tensile strength +15–20% vs. conventional die casting) and reduce porosity. This makes it suitable for high-load EV components (НАПРИМЕР., Подвесные кронштейны).
- Green Manufacturing:
- Eco-Friendly Surface Treatments: Water-based electrophoresis replaces solvent-based paints, cutting VOC emissions by 40%.
- Recycled Aluminum: Use of post-consumer recycled aluminum (PCR) is rising, with targets of 50% PCR content by 2026 (reducing energy consumption by 95% против. virgin aluminum production).
- Cross-Field Expansion: Demand is growing in AI (high-power chip heat sinks) and drones (lightweight structural parts for extended flight time). Emerging applications in medical devices (НАПРИМЕР., Диагностическое оборудование корпуса) leverage its biocompatibility (для ISO 10993-1).
Перспектива Yigu Technology
В Yigu Technology, we see die casting aluminum medium plate as a cornerstone of lightweight, Высокое производство. For 5G clients, we use high-modulus alloys (Si=20%, Nb=0.15%) to produce phone midboards with E=85 GPa and ±0.03 mm dimensional accuracy—meeting strict drop test standards. For EV clients, our semi-solid die casting process delivers battery brackets with 340 предел прочности МПа и <1% пористость. Мы также расставляем приоритеты в устойчивости: 40% of our aluminum is recycled, and we use water-based electrophoresis to cut emissions. В конечном счете, this material isn’t just about performance—it’s about enabling greener, more innovative products across industries.
Часто задаваемые вопросы
- What is the typical thickness range of die casting aluminum medium plate?
Он варьируется от 2 мм до 20 мм, with customization possible for specific needs. Thin plates (2–5 мм) are used for 5G phone midboards and LED heat sinks, while thicker plates (10–20 мм) suit automotive structural parts (НАПРИМЕР., кронштейны для аккумулятора) and industrial equipment frames.
- Can die casting aluminum medium plate be welded or machined post-production?
Yes—its weldability (via TIG welding, per AWS D1.2) makes it suitable for assembly, though high-modulus alloys may require pre-heating (150–200 ° C.) Чтобы избежать трещин. It also machines well with carbide tools, achieving Ra ≤0.8 μm surface finish via CNC milling.
- What is the lead time for die casting aluminum medium plate production?
Для стандартных сплавов (НАПРИМЕР., ADC12) with existing molds, Время выполнения 7–10 дней Для небольших партий (1,000–5000 единиц). For custom high-modulus alloys or new molds, lead time extends to 4–6 недель (including mold design, тестирование, and production ramp-up).