Aplicações do Aço para Ferramentas H13
H13 tool steel is used for hot-work tooling: aluminum die-casting dies, extrusion dies, hot-forging dies, hot shear blades, die inserts, core pins, ejector pins, slides, moving cores, and mold components.
It is selected when tooling must resist repeated heating and cooling, impact loading, hot wear, surface cracking, and dimensional stress. H13 is rarely chosen for one property alone; it is used because it balances toughness, hot hardness, thermal-fatigue resistance, and thermal-shock resistance.
H13 Tool Steel Available from Aobo Steel
Aobo Steel supplies H13 (1.2344 / SKD61 / 4Cr5MoSiV1) in forged and rolled form, annealed condition, as round bar, flat bar, and forged block. H13 ESR is available for premium die casting, high-cycle tooling, and high-polish mold work.
H13 | 1,2344 | SKD61
Balanced chromium hot-work tool steel for die casting dies, extrusion tooling, hot forging dies, hot shear blades, die inserts, core pins, and stressed mold components.
Guia de Seleção Rápida de Aplicações para Aço Ferramenta H13
| Aplicativo | Por que H13 é usado? | Dureza de trabalho típica | Principal risco de falha |
|---|---|---|---|
| Aluminum die-casting dies | Resiste a fissuras térmicas, lavagem e rachaduras. | 42-48 HRC | Thermal fatigue, molten-metal erosion |
| Magnesium die-casting dies | Suporta ciclos térmicos rápidos e impactos. | 42-48 HRC | Rachaduras térmicas, fissuras |
| Matrizes de fundição sob pressão de zinco | Permite maior dureza devido à menor temperatura de serviço. | 48-52 HRC | Desgaste, danos superficiais |
| Matrizes de extrusão de alumínio | Resiste ao desgaste por calor, pressão e ciclos térmicos. | 44-50 HRC | Desgaste, deformação, fadiga térmica |
| Mandris de extrusão | Suporta resistência ao desgaste sob alta pressão. | 46-52 HRC | Desgaste, rachaduras, tensão de flexão |
| Matrizes de forjamento a quente | Equilibra a resistência ao impacto e a resistência ao calor. | 40-50 HRC | Rachaduras por impacto, superaquecimento, desgaste |
| Lâminas de corte a quente | Mantém a resistência da lâmina durante o corte a quente. | 45-52 HRC | Rachaduras nas bordas, lascas, amolecimento. |
| Inserções de matriz | Proporciona resistência localizada ao calor e ao desgaste. | 44-52 HRC | Rachaduras localizadas, desgaste, danos causados pelo calor. |
| Pinos de núcleo e pinos extratores | Combina resistência ao desgaste superficial com um núcleo resistente. | 40-52 HRC | Irritante, desgaste, rachaduras |
| Inserções de moldes de plástico | Utilizado quando o P20 não é suficiente em termos de resistência ao desgaste, polimento ou resistência ao calor. | 48-52 HRC | Abrasão, defeitos de polimento, distorção |
The hardness values above are typical service ranges, not fixed limits. Large tools, heavy-impact conditions, and severe thermal cycling call for greater toughness and lower hardness. Smaller inserts, pins, mandrels, and wear-focused parts are usually run nearer the top of the range.
As a practical ceiling, hardened and tempered H13 holds useful hot-work properties up to about 52-54 HRC. Values above this are not realistic for tempered hot-work service.
H13 for Die-Casting Dies
H13 is one of the most common tool steels for aluminum, magnesium, and zinc die-casting dies. These dies must withstand high-speed molten metal, repeated thermal cycling, casting pressure, cooling stress, and surface wear.
The main reason for using H13 in die casting is its resistance to heat checking. During each cycle the die surface heats rapidly on contact with molten metal and cools quickly during spraying or internal cooling. This repeated expansion and contraction creates fine surface cracks. As these cracks grow, they degrade casting surface quality, make ejection harder, and shorten die life.
H13 suits aluminum die casting because the die must resist both thermal fatigue and molten-metal washout. In magnesium die casting, the same need for thermal-shock resistance and crack control makes it a practical choice. In zinc die casting the service temperature is lower, so H13 can be run at higher hardness for better wear resistance.
For brass die casting, H13 is limited to less severe conditions or shorter runs. Brass melts hotter, so when the die must hold up at high temperature for extended periods, higher-alloy hot-work steels are safer.
H13 para matrizes e ferramentas de extrusão
H13 handles the pressure, hot wear, and repeated thermal cycling of extrusion while keeping useful toughness. In extrusion the billet is forced through the die under high load, so the tooling must resist deformation, cracking, and surface wear.
For aluminum and magnesium extrusion, H13 is used for dies, mandrels, dummy blocks, backers, bolsters, die rings, rams, and liners. Active dies and mandrels need higher wear resistance, while support tooling needs greater toughness and load-bearing strength.
For copper, brass, and steel extrusion, H13 still serves in support tooling, mandrels, containers, and surrounding components. Where the active die area exceeds the practical service temperature of H13, higher-alloy hot-work steels are required.
H13 for Hot-Forging Dies
H13 is used for hot-forging dies, punches, and inserts. Forging tools must resist impact, compressive load, contact with hot metal, surface wear, and repeated heating and cooling.
In hammer forging the impact load is severe, so H13 is run at lower hardness to reduce the risk of brittle fracture. In press forging the load is applied more gradually, so higher hardness can be used. Press forging also creates longer contact time between the hot workpiece and the die, so overheating and thermal fatigue still have to be controlled.
H13 para lâminas de corte a quente e insertos de matriz
H13 is used for hot shear blades because it keeps edge strength at elevated temperature while resisting impact and thermal shock. These blades cut heated billets, bars, and forged parts, so blade hardness has to match cutting severity.
Lighter hot shearing allows higher hardness for edge wear resistance. Heavy-duty shearing, thick sections, and strong impact call for lower hardness to reduce edge cracking and blade fracture.
H13 is also common in die inserts. Rather than machining a full die from hot-work steel, the active wear and heat zone is made from H13 while the holder, backup block, or retainer uses a more economical steel. In die-casting inserts H13 resists heat checking and molten-metal erosion. In forging inserts it resists wear, impact, and thermal fatigue. For high-cycle dies, precision inserts, or polished mold surfaces, ESR H13 improves steel cleanliness and fatigue performance.
H13 para pinos de núcleo e componentes de moldes
H13 is used for core pins, ejector pins, slides, moving cores, mold inserts, and other stressed mold components. These parts see sliding wear, localized heat, repeated motion, and high contact pressure.
For die-casting core pins and ejector pins, H13 provides a tough core with a wear-resistant surface, which reduces galling, wear, and cracking over repeated cycles.
For plastic molds, P20 is more economical for general mold bases and large cavities. H13 is chosen when the mold needs higher wear resistance, heat resistance, polishability, or longer production life, as in abrasive resin molding, high-cycle plastic molds, and molds for visible or transparent parts.
For optical, transparent, or high-polish components, ESR H13 reduces polishing defects because cleaner steel carries fewer inclusions. This matters for clear lenses, cosmetic plastic parts, and high-quality visible surfaces.
Where H13 Fits Best
Fundição sob pressão
Choose H13 when heat checking, molten-metal erosion, thermal shock, and casting pressure are the main risks.
Extrusão
Use H13 for aluminum and magnesium dies, mandrels, liners, and support tooling that must resist hot wear and pressure.
Forjamento
Choose lower hardness for hammer forging and higher hardness where press-forging wear is more important than impact risk.
Mold components
Use H13 when P20 cannot provide enough wear resistance, heat resistance, polishability, or service life.
Quando o aço ferramenta H13 não é a escolha certa
H13 performs well in balanced hot-work applications, but it is not the best choice when one requirement dominates the job.
| Condições de serviço | Por que H13 pode não ser a melhor opção | Melhor Direção de Materiais |
|---|---|---|
| Continuous service above about 540°C | H13 loses hardness and strength too quickly | Aços para trabalho a quente de alta liga H21, H24, H26, H42 ou outros |
| Abrasão severa por frio | H13 lacks the carbide volume for maximum cold-work wear resistance | Aços ferramenta D2, A2, M2, PM ou carboneto. |
| Moldagem de plástico corrosivo | O H13 não é inoxidável e pode enferrujar ou apresentar corrosão. | 420 stainless, 15-5 PH, or 17-4 PH |
| Moldes plásticos de grande porte com pressão de custos | H13 is harder to machine and needs heat treatment | P20 ou outros aços pré-endurecidos para moldes |
| tenacidade máxima à fratura | H13 is slightly less tough than H11 | H11 ou H11 modificado |
| Blocos de matriz extremamente espessos | Core properties are hard to control without adequate quenching | Aços premium H13, com design de inserção ou blocos alternativos. |
For continuous very-high-temperature service, tungsten hot-work steels outperform H13. For severe cold wear, D2 or A2 is more suitable. For corrosive plastic molding, stainless mold steels are safer. For large plastic molds where machining efficiency and cost matter more than hot-work performance, P20 is the better choice.
The selection rule is to choose H13 when the main risks are heat checking, hot cracking, thermal shock, impact, and hot wear.
Need H13 for Hot-Work Tooling?
Send your grade, size, quantity, application, hardness target, and quality requirement. Aobo Steel can confirm H13 forged or rolled supply, annealed condition, ESR option, and mill certificate details.
Perguntas frequentes
O aço ferramenta H13 é usado principalmente para ferramentas de trabalho a quente, incluindo matrizes de fundição de alumínio, matrizes de extrusão, matrizes de forjamento a quente, lâminas de corte a quente, insertos de matriz, pinos de núcleo, pinos extratores e componentes de moldes de alto desempenho.
H13 is used for die-casting dies because it resists heat checking, thermal shock, molten-metal erosion, and cracking. These are common failure risks in aluminum, magnesium, and zinc die casting.
Sim. O aço H13 é amplamente utilizado em matrizes de extrusão de alumínio, mandris, blocos de suporte, reforços, anéis de matriz, pistões e revestimentos, pois combina resistência ao trabalho a quente, tenacidade e boa resposta ao tratamento de superfície.
Sim. O aço H13 é comumente usado em matrizes de forjamento a quente, punções e insertos, pois suporta impactos, calor e ciclos térmicos repetidos melhor do que muitos aços de uso geral.
Sim. O aço H13 é utilizado em pinos de núcleo, pinos extratores, corrediças, núcleos móveis, insertos de moldes e componentes de moldes plásticos de alto desempenho, especialmente quando a resistência ao desgaste, a resistência ao calor ou a capacidade de polimento devem exceder as do aço P20 padrão.
H13 is preferable when the mold requires higher wear resistance, heat resistance, polishability, or a longer production life. P20 is usually better for general plastic molds where lower cost, easier machining, and availability of pre-hardened stock are more important.
O aço H13 geralmente não é a melhor escolha para desgaste severo por trabalho a frio. Para estampagem a frio, corte, embutimento profundo e desgaste abrasivo em longas séries, os aços D2 ou A2 costumam ser mais adequados.