Temps de lecture estimé : 9 minute
Friction sur le processus d'estampage
Les processus d'estampage is very important, the sheet is always in contact with the die. This contact is not static, but dynamic. Because the metal sheet flows over the die surface, there is relative motion between the sheet and the die. Even though sheet and mold surfaces appear smooth without visual aid, under the microscope, their surfaces show complex shapes. Stamping Process
Sheet and tool surfaces have roughness distributions that consist of a series of peaks and valleys of varying heights, depths, and spacings, as shown in Figures 1 and 2. The roughness distribution of sheet metal will vary depending on the type, grade, and coating of the material, while the roughness distribution of tools will vary depending on the type of material and how they are processed. Stamping Process
Due to these irregularities of the sheet and tool surfaces, there is resistance to relative motion. In simple terms, this resistance to relative motion is called “friction”, which is why lubricants are applied to metal plates to reduce their resistance and therefore friction. The ratio between the frictional force and the contact force of two moving objects is represented by the coefficient of friction “μ”, the value of which depends on the tribological system itself and the forming process, such as the temperature of the sheet, the stamping speed, the contact pressure and the strain of the sheet. Stamping Process
Lubrification sur les processus d'emboutissage
We know where the friction is coming from and why we need to lubricate the sheet before stamping. We will now focus on how the amount of lubrication affects the quality of the panels during the forming process. You can get a better understanding of the lubrication effect through the pictures below. Stamping Process
Les tôles illustrées aux figures 3, 4 et 5 ont été simulées à l'aide de la même configuration de simulation exacte, et la qualité de la pièce était différente car la quantité de lubrifiant avait changé. La feuille représentée sur la figure 3 présente de graves plis aux coins en raison du pouvoir lubrifiant élevé appliqué à la feuille avant l'étirage.
The higher the amount of lubrication, the lower the resistance to movement, i.e. the material then moves freely over the tool surface in an uncontrolled manner, creating wrinkles. Conversely, when the amount of lubrication applied to the sheet is very low, the resistance to motion is very high. This high resistance forces the sheet metal to stretch beyond the desired amount, producing substantial thinning and, in some cases, extensive cracking, as shown in Figure 4. Stamping Process
Therefore, it becomes critical to use the proper amount of lubrication when pulling panels, as is finding the optimum amount of lubrication required. Figure 5 shows a sheet without wrinkles and cracks when the lubricant is properly applied. Stamping Process
Comme tout autre processus de fabrication, l'application de lubrifiant sur la feuille crée des incohérences comme du bruit. Cela signifie que si l'utilisateur décide d'utiliser 1 g/m2 de lubrifiant sur la feuille, produisant ainsi un panneau sans défaut, quelle est la probabilité que le robot pulvérise la quantité exacte de lubrifiant sur le panneau à chaque fois ? Par exemple, si la précision de l'équipement est de 85%, la déviation du lubrifiant sera de 0,85 à 1,15 g/㎡, si le panneau est très sensible au frottement, il peut y avoir des problèmes. Par conséquent, il est essentiel de trouver une plage sûre de quantités de lubrification et de s'assurer que l'équipement pulvérise du lubrifiant dans la plage donnée.
When considering an AHSS stamping tribology system, there are three main points to consider, namely: 1. The effect of friction and tribology on spring back; 2. AHSS stamping produces higher temperatures, which again affects friction behavior; 3. The use of different tool materials in AHSS stamping has new effects on the friction behavior informing and simulation. These three phenomena should be considered in stamping simulations, which can only be achieved by using advanced stamping friction models. Stamping Process
Bien sûr, AHSS a plus de ressort lors de l'estampage de pièces délicates. Le retour élastique peut être fortement influencé par le comportement de frottement défini dans la tôle formant simulation. This is why you should improve the friction behavior in punch simulations. This, in turn, yields better rebound predictions. Friction determines the amount of restraint in the part, and based on this, spring-back behavior is affected. Stamping Process
Also, it is important to consider that during AHSS stamping, higher contact pressures between the tool and the sheet are often observed, which is why friction becomes so important, and friction causes an increase in temperature in the material, which For mild steel, this order of magnitude does not occur. Therefore, a proper description of temperature variation and its effect on frictional behavior is critical for simulating the stamping of AHSS. Stamping Process
Additionally, AHSS stamping materials require the use of tool steels that are not typically used on medium strength steels. Now we have to consider the tribological effects of harder tools made of a certain carbon and chromium content, rather than tools made of cast iron. This mold material also has an effect on tribological properties. This is why the user must take this into account as well as lubricant selection during the simulation setup. A good friction model should take into account all these interrelationships when generating the friction model. Stamping Process
If you have an advanced friction model in your forming simulation, then you need to introduce a realistic tribology system in your sheet metal forming simulation. You’ll then get more accurate crack, wrinkle, thinning, and spring back predictions, all tied to the friction model you’re using. Stamping Process
In the process of deep drawing, due to the relative movement between the workpiece and the surface of the mold, adhesion will occur under the action of a certain pressure. When stainless steel is deep-drawn, this phenomenon is more serious, resulting in scratches on the surface of the product and the appearance of the mold surface. “Bonding nodules”, in order to protect the surface quality of products, control friction, wear, and remove scratches, the most effective means is lubrication. The first point of selecting lubricant is that the lubricating film does not break and lubricates throughout the sheet metal deep drawing process. Stamping Process
“Anti-viscosity and friction reduction” is the basic starting point for selecting lubricants. Under the premise that other conditions meet the deep drawing process, the quality of lubrication will directly affect the drawing force, die life and product quality, etc., and even become the key to the success or failure of the deep drawing process. According to the information, among various processes, the deep drawing process consumes the most amount of lubricant. During the deep drawing process, due to the relatively large deformation of the material, the lubricant is required to have excellent performance. Stamping Process
Jetons un coup d'œil aux différents lubrifiants :
Voici les caractéristiques de plusieurs lubrifiants d'emboutissage courants :
Taper | Avantages | Défaut |
Huile minérale | 1. Largement reconnu et utilisé dans l'industrie 2. Le chlore et le soufre sont des additifs lubrifiants très efficaces à des pressions extrêmes 3. Gardez généralement la pièce humide et l'adhérence de la pièce n'est pas grave pendant l'utilisation | 1. Technologie obsolète, peu de progrès en recherche et développement 2. Difficile à mélanger, émulsion instable 3. Contient des ingrédients nocifs et inflammables 4. Difficile à nettoyer et à souder directement 5. Augmentation des frais de traitement |
Huile volatile | 1. Il peut s'évaporer de la pièce 2. Facile à nettoyer | 1. Inflammable et toxique 2. Provoque des maladies cutanées graves 3. Moins de protection pour les outils 4. Ne pas disparaître complètement 5. Dépasse la limite de quantité de COV dans l'air 6. Augmenter considérablement la teneur en COV dans l'atelier |
Film sec de savon boraté | 1. Mélangé avec de l'huile lubrifiante ou utilisé seul lors de l'estampage 2. Produits de lubrification très efficaces | 1. Construire sur le moule 2. Générer des particules de borax au poinçon 3. Ajouter un coût supplémentaire lors du nettoyage du moule 4. Mousse lors du nettoyage 5. Deviendra mou et collant dans un environnement humide ou lors de la rencontre de lubrifiants 6. Confondu comme un métal lourd dans les eaux usées |
Composé de savon | 1. Produit universel de protection des outils 2. Petit prix 3. Toujours efficace après dilution | 1. La technologie des années 1830 2. Ne contient pas d'additifs EP 3. Le pigment est attaché à l'outil et la partie d'estampage est sujette au collage 4. La viscosité de surface de la pièce est grande 5. Corrosion des métaux mous 6. Mousse pendant le nettoyage |
During the lubrication process, different vaporization will occur as the temperature rises, taking away a lot of heat, thereby reducing the temperature of the mold; as the vaporization continues to generate, the lubricant will continue to accumulate to the high-temperature point, forming a tougher The lubricating film protects the mold more effectively, thereby extending the service life of the mold. It will also improve the quality of the workpiece surface without scratches, as shown in the figure below. Stamping Process
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