Name: Lightweight 5454 Aluminum Sheet Plate for Marine & Chemical Applications - Langhe Aluminium Co., Ltd
SKU: LH-033
Price: 3600.00 CNY
Availability: InStock

White Coated 5454 Placa de folha de alumínio

5454 Aluminum Sheet Plate for Tanker Trucks

5454 Placa de folha de alumínio

Escolher 5454 Placa de folha de alumínio para resistência leve nos decks marítimos, vasos químicos, e recipientes de pressão. Confiabilidade comprovada, Fácil fabricação.

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Investigação

In the realm of high-performance aluminum alloys, 5454 Placa de folha de alumínio distinguishes itself with a unique combination of excellent corrosion resistance, boa força, and notable performance at moderately elevated temperatures.

This 5xxx series aluminum-magnesium-manganese alloy has become a preferred material for demanding applications where thermal stability and resistance to chemical attack are paramount.

Conteúdo mostrar

1. Introduction of 5454 Placa de folha de alumínio

5454 Placa de folha de alumínio is a non-heat-treatable wrought alloy specifically engineered to maintain its structural integrity and corrosion resistance when exposed to sustained temperatures that might compromise other 5xxx series alloys like 5083.

Its formulation, particularly the controlled magnesium and manganese content, makes it less susceptible to sensitization and stress corrosion cracking (SCC) at service temperatures typically up to around 120-150°C (250-300° f).

Isso faz 5454 Placa de folha de alumínio an ideal choice for tank trucks carrying hot liquids, chemical processing equipment, and certain pressure vessel applications.

2. Propriedades de 5454 Liga de alumínio

O desempenho de 5454 Placa de folha de alumínio stems from its carefully balanced chemical composition and resulting physical and mechanical properties.

Composição química

A chave para 5454 aluminum sheet plate’s unique capabilities lies in its alloying elements.

Magnésio (Mg) is the primary strengthening agent and also contributes to corrosion resistance.

Manganês (Mn) further enhances strength and, along with controlled levels of chromium (Cr), helps stabilize the microstructure at elevated temperatures.

Elemento	Contente (%) (Típico para ASTM B209)	Função
Silício (E)	≤ 0.25	Impureza; controlled to maintain desired properties.
Ferro (Fe)	≤ 0.40	Impureza; high levels can reduce ductility and corrosion resistance.
Cobre (Cu)	≤ 0.10	Impureza; controlled to prevent adverse effects on corrosion resistance.
Manganês (Mn)	0.50 - 1.0	Melhora a força; works with Mg and Cr to enhance elevated temperature stability and resistance to intergranular corrosion.
Magnésio (Mg)	2.4 - 3.0	Elemento de liga primária; provides significant solid solution strengthening and excellent corrosion resistance. Lower Mg than 5083 helps with elevated temperature stability.
Cromo (Cr)	0.05 - 0.20	Melhora a resistência à corrosão, Controla a estrutura de grãos, and contributes to stress corrosion cracking resistance.
Zinco (Zn)	≤ 0.25	Impureza.
Titânio (De)	≤ 0.20	Often added as a grain refiner during casting, improving toughness and formability.
Outros, cada	≤ 0.05
Outros, total	≤ 0.15
Alumínio (Al)	Equilíbrio	Metal base.

Observação: Specific composition ranges for 5454 Placa de folha de alumínio may vary slightly based on governing standards like EN AW-5454 or ASME SB-209.

Propriedades físicas

Essas características materiais inerentes são amplamente independentes.

Densidade: Aproximadamente 2.69 g/cm³ (0.097 lb/in³)
Faixa de fusão: Aproximadamente 600 - 650 ° c (1110 - 1200 ° f)
Condutividade térmica: Aproximadamente 130 - 140 W/m · k (no 25 ° c)
Resistividade elétrica: Aproximadamente 4.9 - 5.1 µω · cm (no 20 ° c) / Condutividade elétrica: ~34% IACS
Módulo de elasticidade (Módulo de Young): Aproximadamente 70 GPA (10,150 KSI)
Coeficiente de expansão térmica: Aproximadamente 23.7 µm/m · ° C. (20-100 ° c)

Propriedades mecânicas

As propriedades mecânicas de 5454 Placa de folha de alumínio are significantly influenced by its temper. Common tempers include O (recozido), H32, H34 (strain-hardened and stabilized), and H111/H112 (strain-hardened by shaping processes).

Temperamento	Resistência à tracção (MPA, típico)	Força de escoamento (0.2% desvio) (MPA, típico)	Alongamento (% em 50mm, typical for 1.6mm thick)	Dureza (Brinell, Hbw, típico)
O	215 - 285	85 - 140	≥ 12	55 - 65
H32	250 - 305	180 - 240	≥ 6	70 - 80
H34	260 - 330	200 - 270	≥ 5	75 - 85
H111	220 - 290	100 - 150	≥ 10	60 - 70

Observação: Values for 5454 Placa de folha de alumínio are indicative and can vary with thickness and specific standard. Consult relevant standards for guaranteed minimums.
Importante, 5454 Placa de folha de alumínio retains a good percentage of its room temperature strength at moderately elevated temperatures where other alloys might weaken significantly.

Resistência à corrosão

5454 Placa de folha de alumínio exhibits excellent corrosion resistance to a wide range of environments, incluindo:

Atmospheric conditions (industrial and marine)
Freshwater and saltwater
Many industrial chemicals and food products
Notably good resistance to alkaline solutions (Por exemplo, sodium hydroxide solutions at moderate concentrations and temperatures).

Its composition is specifically tailored to resist sensitization to intergranular corrosion and stress corrosion cracking (SCC) when exposed to moderately elevated temperatures (typically up to ~150°C), a key differentiator from alloys like 5083 in such service conditions.

3. Processo de fabricação de 5454 Placa de folha de alumínio

A produção de alta qualidade 5454 Placa de folha de alumínio involves several carefully controlled stages.

Elenco de lingote

The process begins with melting high-purity aluminum and precisely adding alloying elements like magnesium, manganês, and chromium to achieve the target composition for 5454 alumínio.

The molten metal is then typically cast into large rectangular ingots (lajes) usando frio direto (DC) elenco, which ensures a uniform microstructure.

Quente & Cold Rolling to Sheet/Plate

The cast ingots are preheated (homogenized) dissolver fases solúveis e melhorar a trabalhabilidade.

They then undergo hot rolling, where they pass through large rollers to reduce their thickness significantly.

Após o rolo quente, the material may be further reduced in thickness by cold rolling to achieve the final desired gauge and improve surface finish and mechanical properties of the 5454 Placa de folha de alumínio.

Annealing and Temper Designations (H111, H114, H32, H34, etc.)

After rolling, 5454 Placa de folha de alumínio can be subjected to various thermal treatments to achieve specific tempers:

O Temper (Recozido): Fully softened by heating to a specific temperature and then slowly cooling, providing maximum ductility and formability.
Hxx Tempers (Endurecido por tensão):
- H1X (Apenas endurecido por tensão): Strength is increased by cold working. Por exemplo, H111 implies some strain hardening from shaping processes but without specific control. H114 is a specific temper for some applications.
- H3X (Endurecido por tensão e estabilizado): After cold working, the material receives a low-temperature thermal treatment (stabilization) to improve ductility and long-term stability of properties, especially important for 5454 Placa de folha de alumínio due to its elevated temperature service. H32 (quarter-hard) e H34 (half-hard) são comuns.

Acabamentos de Superfície & Coatings

5454 Placa de folha de alumínio is typically supplied with a standard mill finish.

For specific applications, protective PVC/PE film coating can be applied to prevent surface damage.

Further surface treatments like anodizing or painting can be performed by the end-user.

4. Formação & Fabrication Techniques for 5454 Placa de folha de alumínio

5454 Placa de folha de alumínio offers good fabricability using standard workshop practices.

Corte (Shearing, Laser, Waterjet)

Standard methods can cut 5454 Placa de folha de alumínio:

Shearing: Suitable for straight cuts on thinner gauges.
Laser Cutting: Provides precise cuts for complex shapes with good edge quality.
Waterjet Cutting: Excellent for intricate cuts on thicker plates without heat-affected zones.
Plasma cutting is also an option, particularly for thicker sections.

Flexão & Drawing of 5454 Placa de folha de alumínio

5454 Placa de folha de alumínio tem formabilidade moderada.

Flexão: Pode ser prontamente dobrado, Especialmente no temperamento o. Harder tempers require larger bend radii to prevent cracking.
Drawing: Suitable for moderate deep drawing applications. The O temper is preferred for maximum drawability. Proper lubrication and tooling are essential.

Bending Test of 5454 Placa de folha de alumínio

Soldagem (MEU, Tig, Friction Stir)

5454 Placa de folha de alumínio has good weldability.

MEU (Gawn) e tig (Gtaw): These are the most common fusion welding methods.
- Filler Metal: 5554 is the preferred filler metal as it closely matches the base metal’s chemical composition, Resistência à corrosão, and performance at elevated temperatures. 5356 can also be used, mas 5554 provides better overall compatibility for 5454 Placa de folha de alumínio.
Friction Stir Welding (FSW): A solid-state joining process that can produce high-quality welds with excellent mechanical properties, though less common than fusion methods for this alloy.
Thorough cleaning of weld joints and appropriate shielding gas (usually argon or argon-helium mixtures) are critical.

Machining Best Practices

A usinabilidade de 5454 Placa de folha de alumínio é geralmente justo, similar to other 5xxx series alloys.

Use sharp tools with appropriate rake and clearance angles.
High cutting speeds and moderate feeds are generally effective.
Adequate cooling and lubrication are important to prevent chip build-up and achieve a good surface finish.

Joining & Fastening

Besides welding, 5454 Placa de folha de alumínio can be joined using mechanical fasteners like rivets and bolts.

Compatibility of fastener material is important to prevent galvanic corrosion, especialmente em ambientes corrosivos.

Adhesive bonding can also be an option for certain applications after proper surface preparation.

5. Vantagens de 5454 Placa de folha de alumínio

Lightweight and Strong

Como todas as ligas de alumínio, 5454 Placa de folha de alumínio offers an excellent strength-to-weight ratio.

This is particularly advantageous in transportation applications like tanker trucks, where reduced vehicle weight translates to increased payload capacity and improved fuel efficiency.

Its moderate-to-high strength ensures structural integrity.

Excelente formabilidade (Relative to its Strength and Service)

While not as formable as some lower-strength alloys, 5454 Placa de folha de alumínio provides good formability, especialmente no recozido (O) temperamento.

This allows for the fabrication of complex shapes required for tanks, vessels, and various components.

Custo-efetividade (Life-Cycle Cost)

While the initial material cost of 5454 Placa de folha de alumínio might be higher than some steels or general-purpose aluminum alloys, its long service life due to excellent corrosion resistance (especially at elevated temperatures) and lower maintenance requirements can lead to better overall life-cycle cost-effectiveness in demanding applications.

A key advantage, not listed in your subheadings but crucial for 5454 Placa de folha de alumínio, is its Superior Performance at Moderately Elevated Temperatures and Excellent Corrosion Resistance, as discussed earlier. Este é o seu principal diferencial.

6. Key Application of 5454 Placa de folha de alumínio

Tanker Trucks & Trailers

This is a primary application for 5454 Placa de folha de alumínio.

It is extensively used for constructing tanks designed to transport hot liquids such as asphalt, hot oil, molten sulfur, and various chemicals.

Its ability to withstand these temperatures without significant strength loss or corrosion is critical.

Dump bodies for hot materials also utilize this alloy.

Equipamento de processamento químico

5454 Placa de folha de alumínio is employed in the fabrication of storage tanks, process vessels, piping, and heat exchangers that handle corrosive chemicals, especially at moderately elevated operating temperatures.

Its resistance to alkaline solutions is particularly beneficial.

Vasos de pressão

It is an ASME code-approved material for the construction of unfired pressure vessels intended for service at moderate temperatures where its strength and corrosion resistance are advantageous.

Aplicações Marinhas

Enquanto 5083 ou 5086 are more common for general marine structures, 5454 Placa de folha de alumínio can be used for specific marine components that are exposed to moderately elevated temperatures (Por exemplo, engine room components, exhaust ducting) or require specific chemical resistance beyond typical marine environments.

Componentes automotivos

Limited but specific uses in automotive include components that experience moderate heat, such as exhaust system heat shields or parts located near hot engine components.

Architectural and Construction

In specialized architectural or construction scenarios where components are exposed to moderate heat and require good corrosion resistance, 5454 Placa de folha de alumínio might be considered, although it’s not a common choice for general building facades.

7. Comparação de 5454 Aluminum Sheet Plate with Other Alloys

Entender como 5454 Placa de folha de alumínio compares to other common aluminum alloys is crucial for making informed material selection decisions.

Recurso / Liga	5454 Placa de folha de alumínio	5083 Folha de alumínio	5052 Placa de folha de alumínio	3003/3004 Placa de folha de alumínio	6061-T6 Aluminum Sheet Plate
Vantagem primária	Excellent performance at moderately elevated temperatures	Very high room-temperature strength, excellent marine corrosion resistance	Good general corrosion resistance, boa formabilidade	Excelente formabilidade, good general corrosion resistance	Alta resistência (heat-treated), good general corrosion resistance, boa usinabilidade
Elevated Temp. Desempenho ( >65° c / 150° f)	Excelente; resists sensitization & SCC	Pobre; prone to sensitization & SCC, significant strength loss	Fair to Poor; not typically recommended	Pobre; significant strength loss	Pobre; significant strength loss, over-aging can occur
Temperatura da sala. Força	Moderado a alto	High to Very High	Moderado	Baixo a moderado	Alto (after T6 heat treatment)
Resistência à corrosão (Em geral)	Excelente	Excelente (especially marine)	Excelente	Bom	Bom
Resistência à corrosão (Alkaline)	Muito bom	Bom	Bom	Justo	Justo a bem
Soldabilidade	Bom	Excelente	Bom	Bom	Bom (but significant strength loss in HAZ without post-weld heat treatment)
Formabilidade	Moderado (O temper best)	Moderado (O temper best)	Bom (O temper best)	Excelente (O temper best)	Justo (O Temper); Pobre (T6 Temper)
Aplicações típicas	Tanker trucks (hot liquids), Processamento químico, vasos de pressão (hot service)	Estruturas marinhas, Tanques de GNL, cryogenic applications, high-strength welded structures	Folha de metal geral, marinho (less critical), tanques de combustível, appliances	Folha de metal geral, utensílios de cozinha, building products, latas de bebidas (3004)	Estrutura geral, machinery parts, arquitetônico, bicycle frames
Tratável térmico?	Não	Não	Não	Não	Sim
Filler Metal (Preferred)	5554	5183 ou 5356	5356	4043 ou 5356	4043 ou 5356 (pre-heat treatment); 5356 (post-heat treatment)

Key Takeaways from the Comparison:

Escolher 5454 Placa de folha de alumínio when your application involves sustained exposure to moderately elevated temperatures (up to ~150°C / 300° f) where resistance to strength loss and stress corrosion cracking is paramount. Its excellent general corrosion resistance, particularly to alkaline solutions, is also a significant benefit.
If maximum room-temperature strength and marine corrosion resistance are primary, and elevated temperature service is not a factor, 5083 is often preferred.
Para good general-purpose formability and corrosion resistance at ambient temperatures, 5052 is a versatile choice.
If high-strength via heat treatment is required and elevated temperature service is not a concern, 6061-T6 is a common structural alloy, though its welded properties need careful consideration.

8. What is the Specifications of Langhe Provide (Example/Generic)

Langhe, as a reputable supplier of aluminum products, would typically provide 5454 Placa de folha de alumínio meeting stringent international standards and customer specifications.

Specification Item	Langhe Provided Details (Exemplo)
Designação de liga	5454
Governing Standards	ASTM B209, ASME SB-209, EN AW-5454, Customer-specific requirements
Available Tempers	O, H32, H34, H111, H112, H114, other tempers as per request
Faixa de espessura	Sheet: Typically 0.5mm – 6.0mm <br> Plate: Typically 6.0mm – 100mm (or as per mill capability)
Faixa de largura	Larguras padrão (Por exemplo, 1000mm, 1250mm, 1500mm, 2000mm); custom widths available.
Comprimento	Standard sheet/plate lengths (Por exemplo, 2000mm, 2500mm, 3000mm, 6000mm) or supplied in coil form (thinner gauges)
Acabamento superficial	Acabamento do moinho (padrão), other finishes upon request.
Proteção de superfície	Optional PVC/PE protective film (um ou dois lados).
Tolerâncias dimensionais	According to applicable standards (ASTM, EM) or stricter customer-defined tolerances.
Certificação	Mill Test Certificate (MTC) to EN 10204 3.1, detailing chemical composition, propriedades mecânicas, e conformidade com os padrões. Third-party inspection can be arranged.

This table represents an example. For precise, current specifications for 5454 Placa de folha de alumínio from Langhe, direct consultation with their sales or technical team is essential.

9. Standards and Quality Assurance for 5454 Placa de folha de alumínio

Adherence to industry standards and rigorous quality assurance protocols are vital for 5454 Placa de folha de alumínio, especially given its use in critical applications.

Padrões da indústria

Key international standards governing 5454 Placa de folha de alumínio incluir:

ASTM B209: Especificação padrão para folha e placa em liga de alumínio e alumínio.
ASME SB-209: Specification for Aluminum and Aluminum-Alloy Sheet and Plate (often for pressure vessel applications).
EM 485 / EM 573: European standards for aluminum alloys, Composição química, and form of wrought products.
Specific industry codes (Por exemplo, ADR for transportation of dangerous goods by road).

Testing Methods

Manufacturers perform various tests to ensure 5454 Placa de folha de alumínio meets specified requirements:

Chemical Analysis: Using spectrometry to verify alloy composition.
Teste mecânico: Tensile testing (for tensile strength, força de escoamento, alongamento), hardness testing.
Teste de corrosão: Including tests for intergranular corrosion and stress corrosion cracking susceptibility, especially for tempers intended for elevated temperature service.
Inspeção dimensional: Verifying thickness, largura, comprimento, e nivelamento.
Nondestructive Testing (Ndt): Ultrasonic testing may be performed on thicker plates to check for internal defects.

10. Conclusão

5454 Placa de folha de alumínio stands out as a specialized engineering material, uniquely equipped to handle the dual challenges of moderately elevated temperatures and corrosive environments.

Its carefully controlled composition delivers excellent resistance to sensitization and stress corrosion cracking, making it a reliable choice for tanker trucks, chemical processing equipment, and pressure vessels operating under demanding conditions.

While it possesses good strength and weldability, its primary value lies in its thermal stability compared to other 5xxx series alloys.

For applications where performance at “warm” temperatures is critical, 5454 Placa de folha de alumínio offers an optimal balance of properties, ensuring safety, longevity, and operational efficiency.

Perguntas frequentes (Perguntas frequentes)

Q1: What is the primary advantage of 5454 aluminum over 5083 alumínio?

UM: The primary advantage of 5454 Placa de folha de alumínio sobre 5083 is its superior performance and resistance to sensitization (which can lead to stress corrosion cracking) at moderately elevated temperatures, typically above 65°C (150° f).

Q2: What is the recommended maximum service temperature for 5454 Placa de folha de alumínio?

UM: While specific design codes should always be consulted, 5454 Placa de folha de alumínio is generally considered suitable for continuous service at temperatures up to approximately 120-150°C (250-300° f), depending on the stress levels and specific environment.

Q3: É 5454 aluminum suitable for cryogenic applications?

UM: Como a maioria das ligas de alumínio, 5454 Placa de folha de alumínio maintains good toughness and increases in strength at cryogenic temperatures.

Q4: What filler metal is best for welding 5454 alumínio?

UM: The preferred filler metal for welding 5454 Placa de folha de alumínio é 5554, as it is compositionally matched to provide similar corrosion resistance and performance at elevated temperatures.

Q5: Como a resistência à corrosão de 5454 compare to stainless steel in certain chemical environments?

UM: The comparison depends heavily on the specific chemical, its concentration, and temperature. 5454 Placa de folha de alumínio offers excellent resistance to many chemicals, especially alkaline solutions where some stainless steels might struggle.

No entanto, stainless steels generally offer broader resistance to a wider range of aggressive acids and chlorides.