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3D Printing Services Available At Zeal 3D

3D Printing Service

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Metal 3D Printing Service

Vacuum Casting Services by Zeal 3D

Vacuum Casting Service

Injection Molding Services By Zeal 3D

Injection Molding Service

Fabrication Service

Fabrication Service

Metal Fabrication Service

Metal Fabrication Service

Structural Steel Fabrication Service



CNC Machining Services by Zeal 3D

CNC Machining Service

Icon Zeal 3D CNC Metal Machining Service

CNC Metal Machining Service

Icon Zeal 3D CNC Aluminium Service

CNC Aluminium Service

Icon Zeal 3D CNC Plastic & Composites Service


3D Scanning Services by Zeal 3D

3D Scanning Service

CAD Services by Zeal 3D

CAD Service

Augmented Reality with Zeal 3d Printing

Augmented Reality

Laser Cutting Service At Zeal 3D

Laser Cutting Service


Plastic and Rubber Injection Molded Parts for Automotive Industry


This technology is driving various industries that touch human lives on a day-to-day basis. In Melbourne, 3-D manufacturing is changing the process and aiding industrial and commercial production in a better way. Besides, it is also providing a new lease of life to patients struggling with one or another organ failure. We, Zeal are proud to be a part of this technological revolution that is bringing a change in humans' lives and the world economy. We have utilized the immense potential of additive manufacturing technology and are providing services for 3-D manufacturing in Melbourne in more than 40 different materials.

zeal 3d printing melbourne

Industrial three-dimensional manufacturing is accelerating growth across multiple domains, and it is helping several companies design, build, and launch better products. At Zeal, we offer a state-of-the-art 3-d printing service in Melbourne to meet your every business goal.

With years of experience in additive manufacturing, Zeal is a proud contributor to this technology revolution. We are equipped with high-end 3d printers and equipment to offer you professional services. With 40+ high-quality materials and services, experience the best services in Melbourne and Australia-wide.

Zeal Melbourne offers a comprehensive range of three-dimensional production technologies to cater to your every requirement. Following are some of the most popular technologies and materials used for creating 3d designed products.

Fused Deposition Modelling (FDM)

In FDM, the final product is created by selectively depositing melted materials according to the 3-d CAD file. The FDM process uses thermoplastic polymers, and this method is ideal for small batch production. Some of the widely-used materials in FDM are PLA, ABS, and Nylon 6.

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Stereolithography (SLA)

In this process, the objects are 3d designed by selectively curing a polymer using a powerful UV laser. The SLA process leverages photosensitive thermoset polymers, and SLA is perfect for manufacturing parts with high dimensional accuracy. Commonly used SLA materials are soft white resin, ABS resin plastic and many more.

Selective Laser Sintering (SLS)

In SLS, material granules are infused using a high-power laser to form a solid object. This method is ideal for creating functional parts and prototypes. SLS 3-D technology uses materials like Flexible PEBA 2301 Plastics, Alumide, and glass-filled nylon PA3200.

PolyJet Printing

PolyJet builds solid components by jetting photopolymer droplets over the platform. An intense UV light is used to solidify the 3d designed object. Polyjet offers highly efficient and accurate production, and it's ideal for high-quality prototypes. VeroClear (Transparent), RGD 450 (PP Grade), Basic Vero (white/black) and Agilus30 are some of the popular materials used in this technology.

Direct Metal Laser Sintering (DMLS)

Direct Metal Laser Sintering (DMLS) is a modern and powerful metal 3-D technology, and it is used to produce 3d printed high quality and lightweight parts. Common materials used in this process are Titanium, Stainless Steel 316L, MS1 Steel, Alloy IN625, and Nickel.

3D Printing Advantages

Custom 3-dimensional manufacturing brings in several benefits that accelerate design and manufacturing processes seamlessly. Be it commercial three-dimensional production or personal additive manufacturing; there are several advantages including:

  • Flexible product designing
  • Efficient rapid prototyping
  • It manufactures more robust and lightweight parts
  • Minimum material wastage
  • Highly cost-effective

Get 3D Print Service in Melbourne at Zeal

Zeal is a leading additive manufacturing company in Melbourne that offers complete digital manufacturing services. From rapid prototyping to batch manufacturing and product designing, we have you covered. Contact Zeal now to get started.

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Metal 3D Printing Service Melbourne

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Metal 3d printing

Metal three-D production is an advanced additive manufacturing technique that leverages metal powder to print objects with complex geometries. Technologies used in this process are Selective Laser Melting (SLM) and Direct Metal Laser Sintering (DMLS). In these methods, a high-power laser selectively fuses the metal powder particles to produce 3d parts layer-by-layer.


Zeal offers a wide range of materials to 3d print a metal part and meets your product requirements. Some of the common materials are:

  • Stainless Steel 420
  • Stainless Steel 316L
  • Aluminium (AlSi10Mg)
  • Titanium
  • Nickel Alloy IN625
  • Cobalt Chrome, and many more

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Why Zeal for Metal Printing Melbourne

Zeal offers a comprehensive range of metal 3d printing in Melbourne. With a broad experience of more than a decade in additive manufacturing, we are committed to providing you with top-notch services. From rapid prototyping to product development, we have got you covered. With affordable metal three-D production cost, we are here to get you going to produce 3d components.

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Three-dimensional print service Melbourne provider, we have been meeting the toughest demands of clients with ease. Whether our clients have raw concepts or detailed ideas about a certain product, our talented engineers and designers transform it into reality with ease. Right from sketching to drafting, creating digital CAD files, and custom 3-D printing, we are adept at everything. With our rapid prototyping services, clients are able to analyze the printed object and do minor or major tweaking before deciding on mass production of the object thus saving time and money. We also accept digital CAD files created by clients for online digital manufacturing services in Melbourne.


With several 3D printing services sprouting up Australia wide, providing cost-effective and professional service to clients is paramount. Our designers and engineers will help you create a design from scratch or give a professional touch to your ideas. Our aim is to make these services affordable to all market segments. Besides offering low-cost, we also provide instant delivery and that's the reason we boost our impressive portfolio of three dimensional print in Melbourne.

Whether you have a model ready to produce a 3d object, or just an idea for the same, visit us. Our staff has the skills and experience in making CAD files and handling additive processes. We guarantee that you can have access to the latest additive technologies and quality 3-D prints.


Melbourne 3D Printing Services

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3D Printing Quote

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3d printing quote

Thinking about getting a quick 3-D print cost for your project? We at Zeal have got you covered.

Step 1: Upload the 3D Printing File

Get started with us by uploading your 3d printing file in STL, STEP, WRL, 3MF, DAE, or OBJ format. Don't have a printing file? Contact Zeal, and we will help you.

Step 2: Choose Material

Whether you need 3d prototyping or final development, we offer 40+ industry-standard materials. Pick any one or multiple materials to get started.

Step 3: Select the Quantity

Next, you need to mention the quantity of the custom three-D print product. Also, if you need any specific surface finish, you can mention that as well, and we will take care of it.

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Step 4: Specify Part's Application

If you're not sure about the materials, you can tell us about your product's functionality, and we will suggest the best fit material.

Step 5: Submit Your Request

Fill in your details and submit your request to get an instant price. Our team members will contact you soon.

Get the Best 3-D Printing from Zeal

Zeal 3D bring you the complete range of digital printing services in South Melbourne. Get in touch with Zeal today to get started with commercial three-dimensional manufacturing Australia-wide.

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Why Choose Us for 3D Printing in Melbourne

Zeal 3D is a Melbourne-based company that caters to all your production requirements. Get professional additive manufacturing services in Melbourne to grow your business with ease. We offer advanced Industry 4.0 services that cater to designing, prototyping, testing, and product manufacturing. Get the best 3D printing services in Melbourne in shorter lead times. Get in touch with us to learn more about our 3-d manufacturing services.

Affordable Service

Zeal uses modern technologies to offer you affordable additive manufacturing services. From rapid prototyping to plastic and metal additive manufacturing, get the best services at flexible & affordable costs.

Guaranteed Quality

Zeal offers you high-quality product development using our state-of-the-art production methods. From reverse engineering to additive manufacturing solutions, we fulfil your every requirement with perfection.

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Pick industrial-grade materials from our collection of more than 45 materials, including metals, plastics, and composites. Zeal can also arrange custom materials without an MOQ.

Instant Quote

Get a quick quote from our professional within minutes. Receive accurate quotes, time estimations, and DFM feedback to speed up your manufacturing process. Zeal helps you pick suitable materials & get started.

Lowest Shipping Costs

Zeal is committed to offering you high-quality products shipping across Australia at affordable costs. Whether it's a single prototype or a batch of products, experience faster shipping with Zeal.

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Metal 3D Printing Supplies Melbourne

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3D Print

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Beginners Guide to 3D Printing

3D printing or additive manufacturing technologies have taken the world by storm. Be it creating a prototype or creative figurine, 3d print is a turnkey solution. Here is a beginner’s guide to how and why you should choose 3D printing services for your business today.

3d Printing STL Files

Source : Zeal 3D

How to Prepare 3D Printing STL Files

In this 3D printing free tutorial for beginners regarding the STL files, we will explore the essential aspects of the STL file format and its best practices. Whether you are starting out 3D printing or already doing it for a while, this guide will help you. We will look at the step-by-step process to upload your models correctly.

FDM technology

Source : Zeal 3D

FDM 3D Printing Material Guide

A comprehensive free FDM 3d printing material guide will explain every nitty-gritty detail about FDM printing technology seamlessly. Let's dive deep into it. This FDM printing material selection guide covers all the necessary information, including the properties, pros, cons and much more about each material in brief.

What Our Customers Say...

Elisa Peterson
Elisa Peterson
30. March, 2023.
This was my first time 3D printing, and I was on a steep learning curve. David the project engineer who helped me always got back to me promptly and answered all my questions as well as giving me feedback on what parts of my design needed to be reworked in order to print. When I submitted my final design using David's feedback, it printed up perfectly! Zeal 3D produced just what I needed, in a timely manner. Many thanks, David, for all your help, and I look forward to working with you again soon!
Nigel Petrie
Nigel Petrie
6. September, 2022.
Great to deal with, fast turn around times and quality CNC finishes
Shufan Yang
Shufan Yang
1. April, 2022.
Nice customer services, fast response, and beautiful products.
Stephen White
Stephen White
1. March, 2022.
These people do an amazing job. They produced an aluminium shroud for the electric fans on my 1978 Bathurst Cobra Coupe from a Fusion360 model I produced. The end result was flawless.
Awnet Plus
Awnet Plus
11. August, 2021.
I couldn't be happier with their service and the prototypes they created for me. Much appreciated!
David Ashby
David Ashby
6. August, 2021.
Working with Zeal was an incredible experience. As someone who is new to 3D printing and modelling, the Zeal team were able to help me troubleshoot and optimise the project, and were incredibly patient with my enquiries. The final product was very affordable, delivered in a timely manner, and the print quality itself surpassed my expectations. Highly recommended and will definitely work with them again in the future.
Sanjayan Subramaniam
Sanjayan Subramaniam
1. July, 2021.
Had a fantastic experience working with Zeal on a little hobby project. I've never 3D printed anything in my life and wanted to try creating two little statues for a friend. They were quite intricate models - one was a sword in a stone, with a crown and other difficult details. The other was a mountain range. Mukul gave me clear instructions on how to make sure the CAD file was ready for printing and offered a very reasonable price. I ordered the statues during a lock-down period so I thought they'd be delayed but to my surprise, they delivered the statues to my house much earlier than the ETA we agreed on. Am very happy with the statues and will definitely look to work with Zeal again for future projects.
Christopher Hatton
Christopher Hatton
30. June, 2021.
I fully recommend Zeal 3D printing service. My experience working with Mukul was fantastic because of the attention to detail to ensure the customer gets the best quality printed parts. I see this as value add when developing products and turn around times was quick to NZ.
12. March, 2021.
I ordered several parts from Zeal. The quality of the products are super good. Customer service is always quick and good. A very happy experiance and trusted vendor.

Find us here


304/566 St Kilda Rd, Melbourne VIC 3004,

Visit By Appointment Only


Contact No: +61 1300 719 729

We are available here also: Brisbane, Sydney, Perth, Tasmania, New Zealand, Canberra, Adelaide

Question and Answer

Also popularly known as additive manufacturing, is a production method where 3D printers create three-dimensional items by depositing filaments in a layer-by-layer fashion as per the object’s digital model. This allows people to easily produce complex items without getting much into a complex manufacturing setup.

Three-dimensional method is in contrast to conventional production methods which use subtractive manufacturing in which an item is made hollowing or cutting out metal or other filament blocks. Additive manufacturing is widely used in various industries and it's primarily used for rapid prototyping. This method allows on-demand design preparation without requiring a heavy manufacturing setup.

There are different types of techniques available, but there are nine fundamental types of techniques that are widely adopted. These methods are Fused Deposition Modeling (FDM), Digital Light Processing (DLP), Material Jetting, Electron Beam Melting (EMB), Stereolithography (SLA), Laminated Object Manufacturing (LOM), Binder Jetting (BJ), Selective Laser Melting (SLM), and Selective Laser Sintering (SLS).

All these methods are generally used for rapid prototyping and many online 3-D print purposes. Every 3-D printing process has its unique 3-D print design features that are suitable for many industrial applications. FDM and SLA are the most famous additive manufacturing methods.

First, the engineer utilizes 3-D software to make the design that will come out as the ultimate product. The CAD software produces an STL file that comprises all data related to the design. Once the STL file is available, 3d printers interpret the data and start the method.

Based on the filament, technology, and 3-D model, the ultimate object starts building in a layer-by-layer practice. The layered production continues till the final object is developed completely. Once the item is ready, it goes into post-production work for final touches.

Rapid prototyping and rapid manufacturing are the same which cover a wide range of fabrication tactics that help manufacturers produce items faster. In these methods, a CAD file is used to create a prototype model or for mass manufacturing. 3d printing is an ideal technology to perform rapid prototyping.

This technology is revolutionizing the complete manufacturing domain and there are various printing benefits to count on. Some of the important benefits of additive manufacturing are:

  • It allows the production of intricate objects that are not feasible with conventional manufacturing.
  • Rapid prototyping is much more durable and cost-effective with additive manufacturing.
  • It's quick to print lightweight and durable parts.
  • The lead time is lower than traditional methods.
  • Material wastage is minimum.

Industries that are leveraging three dimensional applications for producing bespoke designs are automotive, construction, healthcare, education, aerospace, and more.

There are several methods that offer various purposes and performances. Here are the different types of widely-used methods:

Fused Deposition Modelling (FDM)
It is the most employed and cost-effective method and it utilizes industry-grade thermoplastics to manufacture objects.

Selective Laser Sintering (SLS)
In this modern manufacturing technology, tiny particles of the material are fused by generating heat using a high-power laser beam to create a solid object.

Stereolithography (SLA)
This additive manufacturing method utilizes a high-power laser to solidify liquid resin to create final products.

In this process, the 3-D printer sprinkles drop of photopolymer that gets crystallized when they come in contact with UV rays.

There are various choices available for filaments that are utilized to build objects of different characteristics and surface finishes. Some of the widely-used materials used to produce items are:

  • PLA (Polylactic Acid)
  • ABS (Acrylonitrile Butadiene Styrene)
  • Stainless steel
  • Nylon
  • Resin
  • HIPS (High Impact Polystyrene)
  • Carbon fiber
  • Ceramics and many more

SLA or Stereolithography is the commonly applied additive manufacturing technique that is employed to create objects of high strength and superior smooth finish. SLA is used to create parts with greater details and functional properties.

The most significant utility of this advanced method is in the healthcare domain and some of the popular SLA purposes are producing snap-fit arrangements, molds & casting models, jigs & fixtures, and many more. In the healthcare industry, this additive manufacturing method is used for producing anatomical models. Fundamental advantages of SLA are intricate prototype creation, faster turnaround, smooth surface finishing, and more.

Selective Laser Sintering or SLS utilizes a powder bed fusion process to produce parts. SLS parts are produced from thermoplastic filaments and are ideal for functional testing. Parts made up from this additive manufacturing have rough surface texture and it doesn't need support structures.

SLS's biggest utility is that it can produce multiple parts into a single build hence it is suitable for producing parts in multiple quantities. The SLS process is ideal for small and medium batch parts production with complex geometries.

Fused Deposition Modeling or FDM is among the most popular plastic-based techniques. In this additive manufacturing, the plastic material is ejected from the nozzle and it creates the objects in a layer-by-layer fashion. Fused Deposition Modeling is a broadly applied method in many industries as it's highly affordable and creates objects with a shorter lead time.

This technology can also be utilized for creating certain functional plastic components for testing and presentation purposes. The items created by this additive manufacturing have rugged surface texture and the items are of limited strength. This additive manufacturing process is ideal for personal hands-on as it's easy to use.

PolyJet method produces parts by jetting photopolymer droplets on the bed and the droplets are then crystallized using a powerful UV light. Polyjet is amongst the quickest additive manufacturing methods that produce accurate geometries. This technique also follows a layer-by-layer fabrication process and the layers are photopolymers.

PolyJet is also known as MultiJet, this method offers higher repeatability and greater precision which makes it an excellent pick for small and medium-sized quantity production. This technology can offer precision up to 0.004” on every part. PolyJet is a perfect pick for producing high-quality prototypes.

Metal 3-D manufacturing is the newest and highly capable additive manufacturing method which is utilized to create complex metal parts. With this method, engineers can produce intricate and strong tooling parts that can be used in conventional manufacturing. It aids in decreasing lead times and delivers high-grade quality.

The metal parts created with this method are both functional and non-functional which can be applied in various industries. These techniques used for manufacturing are Selective Laser Melting (SLM) and Direct Metal Laser Sintering (DMLS). This method delivers robust design flexibility along with the functional mechanical characteristics.

There are numerous performance-driven advantages that are transforming the whole manufacturing paradigm. Some of the key advantages of opting for this method are:

Higher customization - Metal additive manufacturing enables engineers to produce intricate design geometrics without reducing the durability of the item.

Faster turnaround - As compared to the traditional production, it can deliver final products with a shorter lead time.

Minimum material wastage - The material wastage while producing metal parts is significantly lower than the conventional subtractive methods.

There are many widely-used types of techniques that are used in industrial work which are:

  • Direct Energy Deposition
  • Powder DED
  • Wire DED
  • Powder Bed Fusion
  • Selective Laser Melting (SLM)
  • Electron Beam Melting (EBM)
  • Binder Jetting
  • Bound Powder Extrusion
  • There are many high-level uses of 3-D metal production in several businesses and these applications are much more proficient than the conventional manufacturing techniques. Some of the popular applications are:

    • Manufacturing production tools
    • Fully functional prototypes
    • Manufacturing of tooling fixtures
    • Rigid coverings
    • Spare parts manufacturing
    • Ductwork
    • Heat exchangers & heatsinks

    There are fundamentally four varieties of metal filaments available in the market but engineers can produce custom materials by the mixture of more than two elements. The widely-used materials are:

    • Inconel
    • Titanium
    • Stainless steel
    • Aluminium

    All these metal filaments have their unique characteristics and are used in various industrial applications.

    This method utilizes a powder bed method and, in this method, the metal is in powdered form and is fused to create solid custom parts. In another method, the machine employs a powerful laser that heats up the metal particles and then creates a solid object.

    The 3d printers produce the metal parts in a continuous way and once the items are prepared, they are ready for post-production activity. Based on what material and method are used for manufacturing, the turnaround time varies.

    It is one of the most robust manufacturing processes. This method can be majorly categorized into two sections. The first section is the Laser Metal Deposition technologies and the second category is powder bed technologies. Both types of metal additive manufacturing methods have unique properties used suitable for producing 3d printed objects.

    In powder bed 3-D technology, the metal powder is fused over a bed and then the objects are produced additively. In laser metal deposition, the machine warms up the metal filament powder to make a solid item. Apart from these two robust categories, Binder Jetting and casting are also popularly used metal additive manufacturing technologies.

    The selective Laser Melting (SLM) additive manufacturing method is commonly used for producing 3d printed metal alloys. In this manufacturing process, the metal is sintered using a strong laser in a layer-by-layer fashion following the instructions of the CAD model. In this method, the metal filament powder is fully melted throughout the process.

    SLM uses inert gases like argon and nitrogen for the sintering process. Selective Laser Melting is perfect for pure metals like aluminium and it can deliver robust metal parts. This method does not need support elements for small angles and hangovers. Once the manufacturing is completed, the supports are then detached from the main object.

    Direct Metal Laser Sintering (DMLS) is a robust and widely-employed technique that holds similarities with the SLM method. In DMLS additive manufacturing, the machine sinters the powdered filament following the instructions of the CAD file. But the main contrast is that DMLS does not melt the metal powder fully. Due to this variation, the filament doesn't need to arrive at the top high temperature and the cooling time is lower in this process.

    The most significant benefit of DMLS is that it's more comfortable for producing 3d printed components. These mechanical items are extensively used in automotive, aerospace, and more.

    In Directed Energy Deposition additive manufacturing technology, the material block is drawn and welded at the same term through a nozzle. The DED method holds various similarities with the Fused Deposition Modeling method and the core operating system remains identical. In this method, the metal filament powder is first melted and then hardened using a strong laser.

    This technology offers great precision and the substrate is placed at 3−axis systems which is the stable position. On the other hand, it can be placed at 5+ axis systems, which is the rotating position. The objects manufactured from Directed Energy Deposition have high-grade mechanical characteristics.

    Binder Jetting is a widely-used 3d printing technology and in this process, the printhead of a 3d printer accurately places a liquid binding agent over a thin layer of powder particles. Binder Jetting is a metal additive manufacturing method that is applied to build high-quality and strong custom parts and tooling components.

    Like any other printing methods, Binder Jetting technology also follows instructions from the CAD file and outlines the required object. Once the printing job is finished, the build box is removed from the 3d printer and then put into an oven for curing.

    Casting, which is also known as lost-wax casting, is an alternative to additive and subtractive manufacturing and this technique creates multiple models from the main master model. This metal casting method uses the master model as a reference and then produces a high-quality copy of the same. The items are 3-D printed in wax.

    Once the master pattern is ready, the mold made up in plaster is spilled over it. When the mold is ready to use, the liquid metal is injected into the mold. This will take the place of the wax which is poured through a tree-shaped arrangement to create the object.

    A 3-D model is a computer digital file that includes the mathematical description of an item that is going to print using 3d printers. This 3d model CAD file is designed using CAD software or using the 3d scanning method. The CAD file is first uploaded and then the additive manufacturing process begins.

    To upload a file, you need to navigate to the G-Code Files section and there, you will find the upload option. You need to click on the Upload G-Code File(s) button and choose the file. Once the design is uploaded, it's ready for manufacturing.

    The STL file includes all the information about models that are going to be manufactured. This file format contains the data of the item's surface geometry and it does not involve any color or texture-related information. CAD software produces these STL files and the full form of this file format is "Standard Tessellation Language" or "Standard Triangle Language." It is the most used file format of additive manufacturing. When this STL file is used as a combination with a slicer, then it allows engineers to create a communication with the 3D printer’s hardware.

    Multi-jet modelling is a widely-used rapid prototyping technique that is used for producing 3d printed plastic-based models taking information directly from the CAD file. This method uses multi-nozzles print heads arranged in a linear way. In Multi-jet modeling, the wax-based thermoplastics are sprayed on as tiny drops by a heated print head.

    For overhangs extensions in MJM, a custom support structure of lower-melting wax is formed which is removed later when the job is completed. This method is ideal for producing very high-intricate models. 3d designed models are easier to work on in the post-production stage.

    PLA or Polylactic Acid is one of the widely-used popular materials and is produced using renewable resources. The PLA plastic is formed using natural materials that include corn starch, tapioca roots, or sugarcane. The PLA plastic is based on the usage of natural products' extracts for items. When we compare PLA plastic or ABS, the PLA material is stiffer and stronger than ABS but the heat endurance is on the lower side. PLA materials are bio-based and they are easy to recycle as compared to other plastic-based filaments.

    Injection molding is a commonly used manufacturing method for the production of plastic parts. A wide variety of objects are made using plastic injection molding which are of different sizes and complexities. This process uses an injection molding machine and it takes raw plastic material as filaments produce objects using a mold.

    In plastic molding, the filament is first melted in the machine and then injected at speed into the mold. This process is used for producing thin-walled plastic parts which are widely used in households. Along with this, the injection molding process is also used in the automotive industry.

    The major benefit of injection moulding is that it is simple to scale without complicating the production process. The price per unit included in injection-moulded production is relatively lower than other conventional manufacturing methods. This production process is ideal for the large-scale production of identical items. It is a highly repeatable method which makes it a perfect technique for creating objects with practically identical characteristics. 

    As compared to other manufacturing techniques, material wastage is lower and manufacturers can apply the material block to its highest usability factor. High volume production in injection moulding is more affordable as compared to other manufacturing techniques. 

    The injection moulding manufacturing process involves heating and then injecting plastic filament under high pressure. It is performed into a closed-shape metal mould tool. In this method, the molten plastic solidifies inside the mould tool. Once the process is completed, the object is then ejected from the mould. The plastic material granules from the tank are fed into the heated barrel. The melting is either done by heat, friction or strong shear force. This method is a perfect pick for manufacturing very complex parts that hold intricate geometrics.

    There are mainly 3 types of Plastic Injection Molding machines that are commonly used in various industries. 

    Hydraulic Injection Molding Machine

    The hydraulic injection moulding machines come with an excellent clamping force which makes them an ideal choice for producing objects. The parts of hydraulic moulding machines have a higher endurance to wear and tear.

    Electric Injection Molding Machines

    The electric injection moulding machine is a highly power-efficient machine and it comes with fewer down-time. The production is faster with these electric machines. 

    Hybrid Injection Molding Machines

    This Plastic Injection Molding PLC Machine is an aggregate of the above machines and it offers higher mechanical flexibility and material durability. 

    CNC machining is a productive manufacturing technology in which computer software commands the machine, so in this process, no manual control is required. CNC machining technique is used for managing a variety of complex machinery with greater accuracy and shorter lead times. Lathe, grinder, milling machines are some of the popularly used equipment of this production method. 

    As the CNC gets instructions from the program, the entire production process becomes error-free. CNC reduces the need for manual administration and supervision of production processes. 

    CNC machining production method is extensively used in various industries and there are many applications of this technology including:

    • Cabinets and furniture manufacturing
    • Signage board creation
    • Modelling & Rapid prototyping
    • Aluminium and brass machining
    • Instruments manufacturing

    CNC machining method offers a wide array of benefits over the traditional processes including:

    • CNC machining brings easy scalability to the manufacturing process
    • It helps in making components with greater accuracy
    • Less manual efforts are required in CNC service
    • Faster turnaround time
    • Uniform manufacturing

    Vacuum casting is a replicating or casting method for elastomers polymers and this process uses a vacuum to extract the liquid filament into the mould. This manufacturing technique is an excellent fit when there is a problem with air capture with the casting mould. Vacuum casting or reproduction technology is an ideal manufacturing method for creating complex details. 

    Vacuum casting with metal is also possible where this method offers higher accuracy of complex geometries. This process is also known as thermoforming because it also includes a rapid prototyping method in which the plastic or other material is preheated.


    The vacuum casting technique begins with the production of a master pattern utilising Stereolithography technology. After this, the master model is arranged with a casting gate and then attached over the parting line of the casting frame mould. 

    In this formative manufacturing method, the silicone rubber is mixed and poured into a mould casting frame which is under vacuum. This silicone rubber will run around the master model and it will produce a silicone mould. After this, the mould is kept under the heating chamber and once the mould is fixed, it is removed. The master model or pattern is finally excluded before placing the casting funnel & the mould is then sealed. 

    The vacuum casting machine uses a powerful vacuum to suck the molten fibre into the mould. During this process, a force is needed to overcome the surface tension of the molten metal. If the force is not enough, the molten filament will grow into a blob. 

    Using SLA or laser sintering, the original model is developed which brings an excellent surface finish. Then, the silicone mould is produced by moulding the silicone material around the master pattern copy. This method is done under vacuum to evade any kind of air bubble from originating. Once the curing is finished, the silicone mould is cut as per the predefined design.


    There are many high-performance uses of vacuum casting like:

    • Production of high-quality plastic models and spare parts for various industries like consumer goods.
    • Vacuum casting is massively used in prosthetics and medical equipment production.
    • In aerospace and automotive parts creation.
    • Engineers also make use of vacuum casting in functional testing
    • Preparing home decorative items.

    Vacuum casting carries a variety of elements that offer many physical properties and stress levels. Following are some of the most used vacuum casting materials:

    • Glass-filled polymers
    • Polypropylene (PP)
    • Acrylonitrile Butadiene Styrene (ABS)
    • Rubber
    • Wax
    • Polycarbonate (PC)

    There are many prolific benefits of choosing vacuum casting for manufacturing. The silicone moulding produces excellent quality parts as compared to other conventional manufacturing methods. Vacuum casting is a perfect manufacturing method for doing functional testing. Vacuum Casting delivers a wide degree of finishing options and even in limited quantities, it delivers superior quality. Vacuum Casting is ideal for both small-batch and bulk production.

    There are various vacuum casting practices in multiple industries. Some of the widely-used applications of this manufacturing technology are:

    • Pre-launch product functional testing
    • Small-series manufacturing of covers and housings
    • Manufacturing of prototypes and concept models
    • Validation of product design

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