Четыре простых шага для изготовления прототипа пластиковых деталей
Эффективные шаги по обеспечению качества пластмассовых деталей прототипа
Для вывода пластиковой детали или продукта на рынок требуется несколько предварительных условий. Например, функциональность, эстетика и многое другое. Всего этого можно добиться с минимальными усилиями, производители полагаются на прототипы пластиковых деталей. Они способны устранить практически все ошибки до того, как вывести продукт на рынок.
Прототипирование - лучший способ решить все проблемы, связанные с контролем качества. Это обеспечит первоклассное качество деталей и компонентов. С помощью прототипирования можно сократить время выхода на рынок.
С этой целью мы собираемся поговорить о простых шагах техники литья под давлением и ее влиянии на индустрию изготовления пластиковых прототипов.
Изготовление прототипов пластиковых деталей
Литье под давлением
Среди различных процессов прототипирования литье под давлением является наиболее распространенной техникой прототипирования пластика. Эффективен для создания всех типов пластиковых прототипов. Этот пластиковый прототип затем выступает в качестве основного руководства для производителя на этапе массового производства.
With prototyping, manufacturers are able to assure that their idea not only has validity, but it is also up to the mark. The product that they are launching has some usefulness in the market. Furthermore, they can take real-time feedback and make the desired changes in the product at a minimal cost.
They are able to identify almost all potential errors, thus reducing the risk of issues after you go to full-scale production. After all, an error identified after mass production would not only be time-consuming to correct, but it would also be extremely costly. This is something that the manufacturer tends to avoid at all costs.
The Use of 3D Imagery Software
In most cases the производители use 3D animation or imagery software to create the design. After they finalize the design on the computer, the next step is to replicate the same design using ABS plastic. For this purpose, they either use a 3D prototyping mold or a 3D printer.
NOTE: Manufacturers might not use the actual material required for the final product for prototyping. The main objective here is to give clients the feel and look of the product for better understanding.
Once, the manufacturer and client see the product prototype in person, they would be better able to make changes to it. They would know actually what things require to enhance and what needs to be eliminated. It is possible to expose the design flaws via prototyping.
Injection molding prototyping is the biggest step in the product control process. It ensures that the product is according to the requirements and it also oversees its creation process.
Make a Plastic Product Design
Creating a design or concept is the first step in manufacturing. Regardless of what they are manufacturing, may it be a packing product, an electronic device, or a garment, you need to have the basic design. This step is no different in terms of plastic parts.
When you are creating the design for plastic parts, you need to pay heed to its functionality and the feasibility factor. It is equally important for the idea to be doable. If the idea does not have any use in the real world, it is simply a waste of money and effort.
To ensure the success of your product, you can either reach out to professional experts for help, or you can rely on 3D prototyping techniques. Collaborating with the experts would be fruitful. Just make sure that you do not have any communication gap.
You should provide them with as much information as possible regarding your idea. There are different formats that you can use to create the digital file of your concept. For example, you can go with the stl file or the stp file. To create these files, you would be using different CAD software.
If you are looking for something easier to present your idea in an effective manner, try using animated videos or slide shows.
Prototype Plastic Parts Product Engineering
На данный момент все одобрили дизайн продукта. Он даже очистил стандарты функциональности, и все считают, что идея осуществима. Пришло время вмешаться инженерам по продукту. Чтобы создать ваш пластиковый продукт, инженеры будут искать требования к прототипам пластиковых деталей.
В производители прототипа пластиковых деталей use steel tools for the prototyping purpose. Therefore, it is important to taper the material in order to ensure a seamless and smooth injection. For instance, you need to have the right thickness for the part’s wall. There should no be undercuts.
All this is important as it would prevent the steel halves to stick to one side of the tool, or cracking. Experienced manufacturers find the gates to which the plastic needs to injected. In addition, they would assess the plastic material within the gates.
They would even be able to adjust the wall thickness in order to ensure that correct and smooth flow of material into the entire gate. There will be no wastage in terms of overflowing. Manufacturers are well aware of the factors that can make the entire process go awry such as the trapped air. So, they would try their best to make the process go as smoothly as possible.
Creation of the Mold for Plastic Parts
In the prototype plastic part manufacturing, the creation of the actual mold is the most vital process. Since the ideas and the concepts are fully engineered, it is time to step towards the creation of the actual mold. The injection mold technique uses plates to push a part of the mold, while there are water lines that responsible for the cooling process.
In the case of complex and complicated design, the engineers would require steel tools along with other pieces. Moreover, with technological advancement, there are other effective ways to create molds.
Using Injection Molding Machines for Plastic Parts Prototyping
Следующим шагом после создания формы является ее установка в машины. Затем эта машина будет использовать форму для создания прототипа. Процесс включает в себя впрыскивание расплавленного пластика, в то время как 2 половины формы удерживаются вместе зажимом с помощью сверхвысокого давления.
Это давление в форме гидравлики. По мере того, как материал проникает в форму, водяные линии охлаждают его. Таким образом, происходит быстрое затвердевание.