ABS Color FDM Metal Commercial Large 3D Printer

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price: Negotiable
minimum:
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Delivery term: The date of payment from buyers deliver within days
seat: Guangdong
Validity to: Long-term effective
Last update: 2019-09-12 17:53
Browse the number: 183
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Product details

Wish WH1000-FA1000 FDM (Fused Deposition Modeling) / FFF 3D Printer Building volume is: 1000*1000*000mm. This 3D Printer used the All Steel Sheet Metal Body With Plastic-Sprayed Surface Treatment,Double Acrylic Door in Half-transparent color for front,Without head Cover. The Internal Structure is independent with Printer Printer Housing,The Steel structure can ensure the 3D Printer will be durable and working smoothly.

No

Description

1

Brand

Wish 3D Printer

2

Type

FDM Machine

3

Part No

WH1000-FA1000

4

Body Material

High-Temperature Painting Sheet Metal

5

Language

English/Chinese

6

Machine Color

White And Black Body

7

Machine Size

1520*1410*1550mm

8

Build Volume

1000*1000*1000mm

9

Net Weight

380kgs

10

Gross Weight

445kgs

11

Nozzle Quantity

Single (Dual Head Can be customized)

12

Nozzle Diameter

0.4mm (0.6mm,0.8mm,1.0mm ,1.5mm for your options)

13

Nozzle Temperature

180℃-235℃

14

Layer Thickness

0.05mm~0.2mm

15

Display

3.5 Inches Color Touch-Screen

16

Print Speed

20-150mm/s

17

Filament Type Used

PLA/TPU/Carbon Fiber/PETG/ABS

18


1.75mm

19

File Format

STL, OBJ, GCODE, X3G

20

Printing Accuracy

0.08mm-0.5mm

21

Voltage

Input: 110V/220V,50/60HZ,5.4-2.2A,350W

22

Slice Software

Cura /OSS /Repetier-Host

23

Packing Type

Wooden Box

24

Connector Type

SD Card /USB /Online /Offline


Wish WH1000-FA1000 3D Printer Creations, 3D Printer Details

1.This 3D Printer can be customized the Dual Head (Two Nozzles) as your requirements.The details is:

The different Nozzle Diameter will corresponding to different Printing Accuracy is as below:

2.The 3.5 inch Color touch screen;

3.Power-off protection function;

4.This 3D Printer designed A Aluminum Alloy Printing Platform (not need to be heated ),The highest heating temperature can be reached to 120 ℃. Uniform heat, strong adhesion;

5.This 3D Printer Used Double Z Axis (double beam);

6. 3 Power Supplies And 4 Drives;

7.This 3D Printer used LED Track lighting, 3D Printer operator can see the panoramic printing and real-time printing result;

8.This 3D Printer can operated by online, offline, SD card or USB,Mobile control,Wifi,can be required .

9.Our all 3D Printers can be customized as your requirements, We can make the Print Technology : FDM and SLA 3D Printers, We have made the Maximum Build Volume is: 2000*2000*2000mm FDM 3D

Printers and 1600*1600*1600mm SLA 3D Printers .


What To Make With A 3D Printer ?

Architecture; Aerospace; Art; Automotive; Engineering; Fablabs and Makerspaces; Fashion; Humanitarian Aid; Jewelry; Manufacturing; Medicine; Product Design; Research; Education; Primary Education; Secondary Education; DIY, Hobbies and Home;Medical Products and Etc..


You can create custom jigs, assembly fixtures, tools and etc with ultra-fine accuracy and smooth surfaces.



3D Printing Machine ,Packing Show, 3D Printer Manufacturers

The house combined with the heated bed positively influence the print quality of the printed object but also reduces the sound of the machine. The transparent doors allow you to monitor the printing process at all times. The WH1000-FA1000 3D Printer is with air filter. The dual head can be required and print head nozzle diameter 0.4/0.6/0.8/1.0/1.5mm for option.

Researchers Use 3D Printing To Make Artificial Blood To Treat Cardiovascular Diseases

Recently, in the recently published paper "Artificial Blood Vessels Made by 3D Printing for Drug Applications", researchers discussed not only cardiovascular diseases as the leading cause of mortality in the elderly, but also new methods of making artificial blood by 3D printing. The future can improve the quality of life of patients, reduce cardiac arrest and infectious blood vessels.


Historically, artificial blood vessels (ABV) have faced many challenges, and scientific researchers are actively looking for other vascular support methods. In this study, researchers attempted to print a new kind of artificial blood vessel using polymer materials and bioceramics nanoparticles through 3D printing. Thermoplastic polyurethane (TPU) was composed of nanocrystalline hydroxyapatite (HA) nanoparticles.


This is not a new experiment for scientists. Documents date back to 1912, when researchers began to use a combination of metal and glass tubes to make artificial arteries for dogs requiring heart surgery. Other studies have shown that researchers can create polymer matrix for arterial replacement. Drug therapy has been the main treatment for patients with cardiovascular disease (CVD), as well as surgical treatment.


As researchers began the process of making artificial veins, many considerations were given to appropriate biocompatible materials. There are three main steps to create:


1.The nanocrystalline HA powder was prepared from bovine bone, grinded for 10 hours, then heated to 800-850 C for 3 hours to purify the material.

2.TPU polymer is ground into smaller particles and then mixed with HA powder concentration. 3. Filament 3D printing is used to make artificial veins. The diameter of each artificial vein is 6mm.


Researchers point out that although TPU has some disadvantages such as wear resistance and "lack of transparency" in different solvents, it has the following advantages:

High strength

Biocompatibility

Non adhesion

High polarity


In a high-energy ball mill, TPU biopolymer is mixed with HA power of various concentrations (0, 2.5, 5 and 7.5 wt%) to insert the mixed composite powder into the extruder at a specific heating rate. Then, the homogenized TPU-HA filament is used to extract the results and insert them into the 3D printer.

(a) Design of dual-branch ABV, b) Design of solid engineering software and containers in ABV model in simplified 3D software, c) Top and D of SEM image; Transverse view of SEM image constructed by 3D printer (aperture: 50-100 micron)


After evaluating the mechanical and biological properties, the researchers found that the biodegradability of polymers changed and affected the mechanical properties. ABV can play a role "many times" in human body and survive in hypertension and pulmonary vein movement.


New biotechnologies ABV are compact, flexible and anticoagulant. They also have nanotechnology-based heart palpitation adaptation systems and loading of specific micro molecules in adhesives. Analytical materials at atomic and molecular levels and nanotechnology allow these thorns to enter the core (stem cells). When stem cells are absorbed, they cover the entire inner surface of the stem and become endothelial cells. Researchers say these polymer materials can be transplanted into human ABV to help provide nutrition for body tissues.


The team's real goal was to prevent cardiac arrest and amputation by using the link between coronary artery and lower limb artery. They also suspected that ABV could provide biocompatibility and nontoxicity in infections, as well as mechanical and blood compatibility similar to polyurethane. They also add that when using variable "triangular motion" in FDM 3D printing, it is possible to form more uniform containers than other high porosity movements, which can better control the porosity of ABV walls.


Overall, although the use of artificial veins is challenging, researchers say that "selective blood vessels for vascular replacement" must create alternatives - especially those that can accommodate patients with smaller veins.


According to the results, the combination of analytical model and experimental evaluation can be used to simulate the micromechanical behavior of arteries and vessels. It is noteworthy that the porosity of blood vessels significantly affects the shear stress and modulus of elasticity of veins. In this regard, the results show that hemorheological behavior has a significant effect on shear stress changes. The results of this study demonstrate the effects of obstruction rate, pore location and enhancement degree in veins on the elastic modulus and porosity of the tube. In addition, the biological behavior of the samples showed that adding bioceramics could improve the elastic modulus response.


The incidence of cardiovascular diseases is the highest in the world. There are about 156 million people in the world every year, which is the biggest killer of human diseases. Researchers around the world are constantly committed to innovation, focusing on 3D bioprint vascular research and development to improve the lives of patients.

Q1.What About Your After-Sale Service?
A: We offer one-year warranty for our products. Lifelong technical support, online operation video support etc..


Q2.What About The Shipping Cost?
A: Please kindly offer us your address details, We will check accurate freight cost for you.


Q3. Can I Have A Sample Order?
A: Yes, Your sample order is available and welcome for test and check the quality.


Q4. What About The Lead Time?
A: Samples arrived often need 3-7days via International Express.


Q5. Do You Have Any MOQ (minimum order quality) ?
A: Yes, Our MOQ is 1pcs.


Q6. How Do You Ship The Goods And How Long Does It Take To Arrive?
A: If the goods will be shipped by DHL, UPS, FedEx or TNT. It usually takes 3-7 days to be arrived. Air,Land and Sea shipping can be also optional,The time will be 10-30days.


Q7. Is It Acceptable To Print My Logo On The Product?
A: Yes. This can be acceptable.


Q8: Can You Do OEM Service ?
A: Yes, We can do the OEM Service based on your 3D printer drawings, functions requitements and then offer you the best OEM solutions.


How Much Is A 3D Printer, Please Contact Us

1,OEM&ODM;
2,Please Send Any Inquiry To Contact Us For Our 3D Printer Catalog Or Quote Anytime, Looking Forward To An Opportunity To Serve For You,Thanks!

http://www.wish3dprinter.com/

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