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Selective Laser Sintering (SLS) Nylon 3D Printing

Release time: August 02, 2023

SLS stands for Selective Laser Sintering. It is a popular 3D printing solution for rapid prototyping.

SLS nylon 3D printing is mainly molded by sintering nylon powder layer by layer under the action of laser scanning. Generally the sintering nylon powder laser is divided into two categories: one for the sintering of metal powders used in lasers, such as Nd: YAG lasers; the other for the sintering of non-metallic lasers, such as radio-frequency CO2 lasers.


Selective Laser Sintering (SLS) Nylon 3D Printing


Principle of SLS process

 

Selective laser sintering process is the use of powdered materials (mainly plastic powder, wax powder, metal powder, surface with a binder coated ceramic powder, coated metal powder and coated sand, etc.) in the laser irradiation of the principle of sintering, under computer control in accordance with the interfacial contours of the information for the selective sintering, layer stacking and molding. Any fusible powder can be used to create a model, and the resulting model can be used as a real prototype component.

 

During operation the powder cylinder piston rises and the powder is spread evenly over the molding cylinder piston (working piston) by the powder spreading silver. The computer controls the two-dimensional scanning trajectory of the light beam based on a sliced model of the prototype, and selectively sintering the solid powder material to form a layer of the part.

 

Prior to sintering, the entire table is heated to a temperature slightly below the melting temperature of the powder to minimize thermal distortion and facilitate bonding with the previous layer. Once the powder has completed a layer, the work piston drops one layer thickness, the powder laydown system lays down new powder, and the controlled laser beam scans and sinter the new layer. So the cycle repeats, layer by layer, you get three-dimensional parts.

 


Specifically its work process can be summarized in the following steps:

 

1. Parameter selection

 

Layering parameters: layering thickness, part processing direction, scanning spacing, etc.. Forming sintering parameters include scanning speed, laser power, powder type, and powder spread thickness ......

 

2. Prototyping

 

The SLS prototypes were fabricated without additional support because the unsintered powder acts as a support.

 

1) The powder particles are stored in the powder supply bin on the left side. When printing, the elevating platform of the bin rises upward, pushing the powder above the printing plane through the powder spreading roller to the printing plate, forming a very thin layer of powder.

 

2) At this time, the laser beam scanning system will be based on the slice of the two-dimensional CAD path in the powder layer selective scanning, the scanned powder particles will be due to the high temperature of the laser focus and sintered together to generate a certain thickness of the entity of the sheet, the unscanned area is still maintained in the original loose powder.

 

3) A layer of sintering is completed, the printing platform according to the height of the slice down, the horizontal roller will again spread the powder, and then start a new layer of sintering, at this time the layer with the layer is also synchronized with the sintering together.

 

4) This is repeated until all layers are sintered. Remove and recycle the unsintered powder, and the printed solid model can be removed.

 

3. Post-processing

 

After removal from the molding chamber, the excess powder is removed from the part with a brush and a special tool. After further cleaning and sanding, further processing of the prototype material is required.


The raw materials used in the SLS process are analyzed:

 

1. Plastic powder SLS

 

Features: nylon, polystyrene, polycarbonate, etc. can be used as raw materials for plastic powder. Generally, it is sintered directly by laser without subsequent treatment.

 

2. Metal powder SLS

 

Characteristics: The raw materials are various metal powders. According to the sintering process can be divided into direct method, indirect method, two-component method. Due to the metal powder SLS when the temperature is very high, in order to prevent metal oxidation, sintering must be gold wish to come through is a unified party to see the mold protection gas (nitrogen, argon, hydrogen, etc.) in the container. The process is also known as laser selective zone melting molding method, that is, SLM process, can be regarded as an important branch of the SLS process.

 

3. Ceramic powder SLS

 

Characteristics: Ceramic powders are sintered by adding a binder to the powder. There are 3 types of binder: inorganic binder, organic binder and metal binder.



Advantages and disadvantages of SLS process

 

Advantages of SLS process

 

1) Diversity of molding materials, low price. This is the most significant feature of SLS. Theoretically, any material that can form atomic connections between powders after laser heating can be used as SLS molding materials. At present, the main commercialized materials are plastic powder, wax powder, coated metal powder, ceramic powder coated with binder on the surface, coated sand and so on.

 

2) There is almost no requirement for the shape of the part. Since the lower layer of powder naturally becomes the support of the upper layer, SLS is self-supporting and can produce any complex shape, which is not available in many RP technologies. Molding is not subject to the limitations of traditional machining in which the tool can not reach certain surfaces.

 

3) High material utilization. The unsintered powder can be reused.

 

4) The parts have good mechanical properties. The finished product can be used directly as a functional test or small batch use.

 

5) Realize the integration of design and manufacturing. Supporting software can automatically convert CAD data into layered STL data, automatically generate CNC code according to the level of information, drive the molding machine to complete the processing and stacking of materials layer by layer, without human intervention.


Disadvantages of SLS process

 

1) High equipment cost.

 

2) The internal looseness and porousness of the parts, the surface roughness is large, and the mechanical properties are not high.

 

3) The quality of the parts is affected by the powder, and it is not easy to improve.

 

4) The maximum size of the manufactured parts is limited.

 

5) The molding process consumes a lot of energy and the post-treatment process is complicated.

 

SLS Application Examples

 

SLS process has been successfully applied to automotive, shipbuilding, aerospace, aviation, communications, microelectromechanical systems, construction, medical, archaeology and many other industries, for many traditional manufacturing industry injected new creativity, but also brought the breath of information technology. To summarize, SLS process can be applied to the following occasions:

 

1)Rapid prototyping.SLS process can quickly manufacture the prototype of the designed parts, and evaluate and correct the product in time to improve the quality of the design; it can enable customers to obtain intuitive parts model; it can manufacture complex models for teaching and testing.

 

2) The preparation and development of new materials. Using the SLS process can develop some new particles to enhance composite materials and cemented carbide.

 

3) Small batch, special parts manufacturing and processing. In the field of manufacturing, the production of small-lot and special parts is often encountered. Such parts processing cycle is long, high cost, for some complex shape parts, and even can not be manufactured. The use of SLS technology can be economically realized in small quantities and the shape of complex parts manufacturing.

 

4) rapid mold and tool manufacturing. SLS manufactured parts can be used directly as a mold, such as investment casting, sand casting, injection molding, high-precision complex shape of the metal model, etc.; can also be molded parts after post-processing as a functional part to use.

 

5) in the application of reverse engineering, SLS process can be in the absence of design drawings or drawings are incomplete and no CAD model, in accordance with the existing parts prototype, the use of various and digital technology and CAD technology to re-create the prototype CAD mold volume.

 

6) Medical applications: SLS sintered parts can be used in the manufacture of ergonomics due to their high porosity. According to the clinical studies conducted abroad on the artificial static prepared by SLS technology, the biocompatibility of artificial bone is good.


Selective Laser Sintering (SLS) Nylon 3D Printing


Technology Application and Prospect

 

For the current existence of the SLS system speed, precision and surface rent roughness can not meet the requirements of industrial production, St.S equipment cost is high and laser process parameters on the parts of the mass of rat sensitive to the impact of the longer time needed to figure out the problem, the current hot spots of the expert research focused on the following aspects:

 

1) Research on new materials. Material is the key link in the development of SLS technology, which directly affects the molding speed, precision and physical and chemical properties of the sintered specimen. The parts made by SLS generally have many disadvantages such as low strength, low precision, and the need for post-processing, which requires the development of a variety of laser sintering rapid prototyping special materials.

 

2) SLS connection mechanism research. The sintering mechanism of different powder materials is very different, the sintering process of metal powder is mainly controlled by the transient liquid phase sintering, but the current research on the sintering mechanism has stayed at the microstructure theory level, and it is necessary to analyze the sintering process quantitatively from the study of SLS kinetic theory.

 

3) Optimization of SLS process parameters: SLS process parameters (e.g. laser power, scanning mode, powder particle size, etc.) have an impact on the quality of SLS sintered parts. At present, the relationship between process parameters and molding quality is a hot spot in the research of SLS technology, and a lot of research has been carried out at home and abroad.

 

4) SLS modeling and simulation research. Due to the complexity of the sintering process, it is difficult to carry out real-time observation, in order to better understand the sintering process and guide the selection of process parameters, it is necessary to carry out computer simulation of the sintering process.

 

The development of SIS technology will have a positive impact on the research and development and application of equipment, new processes and new materials, and will have a great impact on the manufacturing industry to environmental protection, energy saving and high efficiency.


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Selective Laser Sintering (SLS) Nylon 3D Printing