Главная
Все Категории
Other Fabrication Services
Resin Molds Pla 3d Printing Service Carbon Fiber Large Fdm

Resin Molds Pla 3d Printing Service Carbon Fiber Large Fdm

Категория: Other Fabrication Services >>>
Поставщик: Guangdong Fohan Technology Co. Ltd.Guangdong Ltd.

Цена:71,45-204,12 ₽*

Количество:

В избранное

Описание и отзывы

Характеристики

How 3D Printing Benefit for Furniture Manufacturing

3D printing technology has opened up new possibilities in furniture design, allowing for complex and intricate shapes that were previously impossible to achieve with traditional manufacturing methods. With 3D printing, designers can create furniture with a high level of detail and precision, while also using a wide range of materials and colors. 3D printed furniture can be a unique and innovative addition to any space, but it's important to consider the limitations and

costs associated with this technology before diving in. It's also important to ensure that the furniture is structurally sound and safe for use, as resin 3D printing can sometimes result in weaker and more brittle parts than other manufacturing methods.

3D printing can offer several benefits for furniture manufacturing, including:
1. Design flexibility: 3D printing allows designers to create complex shapes and structures that would be difficult or impossible to achieve using traditional manufacturing methods. This means that furniture designers can explore new ideas and create innovative designs that were previously not possible.

2. Customization: 3D printing allows for easy customization of furniture, enabling manufacturers to create bespoke pieces that meet the specific needs of individual customers. This can lead to higher customer satisfaction and increased sales.

3. Rapid prototyping: With 3D printing, furniture manufacturers can quickly and easily produce prototypes of new designs,
allowing them to test and refine their ideas before committing to mass production. This can help to reduce costs and minimize the risk of errors and defects.

4. Material efficiency: 3D printing can be a highly efficient manufacturing method, as it can use only the exact amount of
material needed for a particular design. This can help to reduce waste and minimize material costs.

5. Scalability: 3D printing can be used to produce both small and large quantities of furniture, making it a scalable
manufacturing method that can be adapted to different production needs.

Overall, 3D printing offers furniture manufacturers greater design flexibility, customization options, and production efficiency, making it an attractive option for the industry.

More Applications in Home Deco and Furnitures

3D PRinted Chairs

3D Printed Chairs

3D Printed Desk

3D Printed Deco Wall

3D Printed Lounge Chairs

The most commonly used materials for 3D printing furniture include:

1. Polymers: Polymers, such as PLA (polylactic acid) and ABS (acrylonitrile butadiene styrene), are widely used in 3D printing due to their versatility, ease of use, and affordability.
2. Resins: Resins are often used for printing more detailed and intricate furniture designs, as they can produce higher quality and smoother finishes than polymers.
3. Metals: Metals, such as titanium, steel, and aluminum, can also be used for 3D printing furniture, although this is a more expensive and complex process than printing with polymers or resins.

In terms of future trends, there are several developments to watch in the 3D printing furniture industry, including:
1. Sustainability: As more consumers become concerned about the environmental impact of furniture production, 3D printing can provide a more sustainable option, as it uses less material and generates less waste than traditional manufacturing methods.
2. Customization: As 3D printing technology becomes more advanced, furniture manufacturers may be able to offer even more customized options, such as furniture that is tailored to an individual's specific body shape and size.
3. Integration with other technologies: 3D printing can be integrated with other technologies, such as virtual reality and augmented reality, to enable customers to see and experience furniture designs before they are printed.
4. Advancements in materials: There are ongoing developments in 3D printing materials, such as biodegradable polymers and smart materials, which could open up new possibilities for furniture design and production.

Overall, 3D printing offers a range of exciting opportunities for the furniture industry, and we can expect to see continued advancements in this technology in the years to come.

Fohan SLA Printing Service

Stereolithography (SLA) printing technology is a type of 3D printing that uses a light-sensitive resin to create highly detailed models, prototypes, and parts. SLA printers use a range of materials, including flexible, rigid, and clear resins. There are also specialty resins that can simulate various materials such as rubber or ceramic. Resin SLA printing has several advantages over other 3D printing methods, the most important one is it much cheaper than others.

We have over 450 Sets of This kind printers. We support mass production for customization products, small volum products. And many different property resins available. We can offer very professional solution at best price.

Fohan MJF Printing Service

Multi Jet Fusion MJF known as HP 3D printing, is an industrial 3D printing process that produces functional nylon prototypes and end-use production parts in as fast as 1 day. Multi Jet Fusion uses an inkjet array to selectively apply fusing and detailing agents across a bed of nylon powder, which are then fused by heating elements into a solid layer. After each layer, powder is distributed on top of the bed and the process repeats until the part is complete. This highly efficient method can build functional, geometrically complex parts 80 micron layers at a time - with mechanical properties that rival injection molded parts.

Advantages of MJF 3D Printing Process

While there are many benefits to MJF printing, a few truly stand out. For starters, the standard build parameters are optimized for the best density. The result is that Multi Jet Fusion parts are watertight.

If you like SLS but want to produce higher quantities for small-batch production runs, Multi Jet Fusion is the way to go. MJF printers have the ability to print multiple parts simultaneously across the entire build volume means you can print parts at rates up to 10X faster than SLS or other 3D printing processes. Also, Multi Jet Fusion delivers more balanced mechanical properties across the X, Y, and Z axes compared to SLS.

If you’re interested in injection molding for your project, it’s always a good idea to get a 3D printed “test” part before making the investment in metal molds. While SLA is a great printing process for extremely detailed and high-resolution prints, the UV cured resins are not as tough as traditional thermoplastics. Prints begin to degrade when exposed to UV light and moisture. Multi Jet Fusion, on the other hand, can produce extremely accurate prints while also maintaining the structural durability of traditional thermoplastics, especially when using glass-filled nylon. This makes it a great process for testing fit and functionality before taking your project to injection molding.

We Have 17 Sets BLT Metal Printers

SLM: Selective laser melting is a major technical approach in the manufacturing of metal material additives.

This technology uses laser as the energy source, and scans the metal powder bed layer by layer according to the path planned in the 3D CAD slice model. The scanned metal powder is melted and solidified to achieve the effect of metallurgical combination, and finally the metal parts designed by the model are obtained.

SLM technology overcomes the difficulties of traditional technology in manufacturing metal parts with complex shapes. It can directly form nearly fully dense metal parts with good mechanical properties.

3D Printing Technologies	SLM
Layer thickness	±0.1mm
Minimum Wall Thickness	0.50mm
Max Printed Size	250250300mm
Accuracy	±0.2mm
Material	BLT Metal Powder: 316L, AlSi10Mg, TC4, Die Steel(Tool Steel)
Leading	1-5 Days

What's SLS Printing Technology

Selective Laser Sintering (SLS) is an additive manufacturing process that uses a laser to selectively sinter (or melt) powdered
material, such as plastic, metal, or ceramic, layer by layer to create three-dimensional objects. It starts with a thin layer of powdered material being spread over a build platform. A high-powered laser is then used to selectively
sinter the powder in a precise pattern, melting it together and solidifying it into the desired shape. This process is repeated layer by layer until the object is complete.

SLS printing is ability to produce complex, intricate, and detailed parts with high accuracy and resolution. The process also
allows for the creation of parts with no need for support structures, reducing waste and allowing for more complex designs. Additionally, SLS can work with a wide range of materials, allowing for the creation of functional parts for a variety of industries. SLS is used in a variety of industries, including aerospace, automotive, medical, and consumer products. It is particularly useful for creating prototypes, functional parts, and complex geometries. SLS can also be used for creating molds and tooling for injection molding.

We Have over 10 Sets SLS Printers

We currently has more than 600 large 3D printing equipments with industrial grade, covering a variety of printing processes, the

annual delivery to customer products up to tens of millions pieces. The company has been active in aerospace, precision medical

device, industrial manufacturing, 3C electronics, automobile manufacturing, mold tooling, cultural creativity parts and other

fields.

3D Printing Technologies	SLS
Layer thickness	±0.1mm
Minimum Wall Thickness	0.50mm
Max Printed Size	350350590mm
Accuracy	±0.2mm
Material	Nylon
Leading	1-3 Days

FQA

Q: Are you trading company or manufacturer ?

A: We are the biggest 3D printing manufacturer in China with 20 years experience and have over 800 sets industrial SLA printers.

Q: How long is your lead time?

A: 1. 3D drawings: about 5-7 days, it depends on the complex of your products.

2. 3D printing: about 1-3 days, it depends on the sizes of your prototypes.

3. Polishing/surface
treatments: about 1-3 days, it depends on your requests on surface treatment.

4. Functional making: about 2-5 days, it depends what kinds of function you need.

5. Painting: about 2-4 days, it depends on the qty of prototypes.

6. Delivery time: about 4-5days

Q: What are files you need for quote?

A: 1. It's better to offer 3D files, like STP, STL, IGS, PARASOLID, etc.

2. 2D file isalso ok with detail requests.

Q: Do you provide samples ? is it free or extra ?

A: Yes, we could offer the sample for free charge but the freight be paid by customer

Новые поступления

Новинки товаров от производителей по оптовым ценам