Glass 3D Printing: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
| (2 intermediate revisions by 2 users not shown) | |||
| Line 2: | Line 2: | ||
:*Paper in Nature - [https://www.nature.com/articles/nature22061?token=H9ITBqd5WE32MeJ0nJ0+KWleVFB8CRez8tY/+aRrGpTRlt0AAEDV3bpaXVSNhxJx&referrer_url=https://www.nature.com/articles/nature22061.epdf?referrer_access_token=b47henzeZ3-uqevD7Tlz49RgN0jAjWel9jnR3ZoTv0Ohr7MKyycBc0uHL38jeTOPBMwFpC91Mj_6tkS8b5-CzBeoGx5i2Xu1xCSUMNeaQcmrUNce9T-aSiO9axipKfRGC-KCu_X7uMSXGKdqDIEZFc_5aFYx1jPSJVHztATSDNrdtlHZ-aYYhz1o5X2iYxzoolh8WFQcxLxspet2plxDuv6ugtLsN6dk9GLINnGC_hEf2i0hbVTNvyRCqyUejiNG&tracking_referrer=www.smithsonianmag.com] | :*Paper in Nature - [https://www.nature.com/articles/nature22061?token=H9ITBqd5WE32MeJ0nJ0+KWleVFB8CRez8tY/+aRrGpTRlt0AAEDV3bpaXVSNhxJx&referrer_url=https://www.nature.com/articles/nature22061.epdf?referrer_access_token=b47henzeZ3-uqevD7Tlz49RgN0jAjWel9jnR3ZoTv0Ohr7MKyycBc0uHL38jeTOPBMwFpC91Mj_6tkS8b5-CzBeoGx5i2Xu1xCSUMNeaQcmrUNce9T-aSiO9axipKfRGC-KCu_X7uMSXGKdqDIEZFc_5aFYx1jPSJVHztATSDNrdtlHZ-aYYhz1o5X2iYxzoolh8WFQcxLxspet2plxDuv6ugtLsN6dk9GLINnGC_hEf2i0hbVTNvyRCqyUejiNG&tracking_referrer=www.smithsonianmag.com] | ||
*Can this be also done with 3D printing (plastic binder for glass) where the glass is then fired? | *Can this be also done with 3D printing (plastic binder for glass) where the glass is then fired? | ||
*[https://www.luxexcel.com/ This company does lens printing]. The lenses are made of UV resins - this is done with stereolithography. | |||
=Conclusions= | |||
It appears that only in the 21st century have serious attempts been made at selective laser sintering of ceramic or glass materials. This is a young field of full potential. For example ceramic molds can be centered and they can be used for metal casting. This also ties into oses Meg casting method where a ceramic mold can be used for depositing metal right from a MIG welder. This provides amazing potential for a complex 3D printing of metal Parts using basic techniques such as a MIG welder. This can be done with low-power lasers on the order of 10 watts. This is similar to the basic d3d laser cutter proposed for ose. | |||
See for example this paper on laser sintering of ceramics. | |||
[https://www.google.com/url?sa=t&source=web&rct=j&url=https://sffsymposium.engr.utexas.edu/Manuscripts/1990/1990-03-Lakshiminarayan.pdf&ved=2ahUKEwiDobSztp_ZAhUNLKwKHc9pDuYQFjAAegQIExAB&usg=AOvVaw2qalv79X5hhjuzxJXjnR1H] | |||
=See Also= | |||
*[[D3D Glass Printer]] | |||
=Useful Links= | |||
*Plastic 3D printing with decently clear results on PC, PET, and Amphora filaments - [https://www.youtube.com/watch?v=f7WRGKOHnw0] | |||
Latest revision as of 03:10, 16 February 2018
- Stereolithography for glass printing at low temperature. Glass s then fired. [1]
- Paper in Nature - [2]
- Can this be also done with 3D printing (plastic binder for glass) where the glass is then fired?
- This company does lens printing. The lenses are made of UV resins - this is done with stereolithography.
Conclusions
It appears that only in the 21st century have serious attempts been made at selective laser sintering of ceramic or glass materials. This is a young field of full potential. For example ceramic molds can be centered and they can be used for metal casting. This also ties into oses Meg casting method where a ceramic mold can be used for depositing metal right from a MIG welder. This provides amazing potential for a complex 3D printing of metal Parts using basic techniques such as a MIG welder. This can be done with low-power lasers on the order of 10 watts. This is similar to the basic d3d laser cutter proposed for ose.
See for example this paper on laser sintering of ceramics. [3]
See Also
Useful Links
- Plastic 3D printing with decently clear results on PC, PET, and Amphora filaments - [4]