(506) 2240-6804
Library with 3d printer near me
3D Printing in the Denver Public Library ideaLABs
We've made some changes to the way we offer 3D printing!
We're excited to let you (yes, you!) get more hands-on with the printers and run your print job yourself. This does mean we are no longer running a print queue or accepting submissions for printing - but now you will have the chance to run the entire process yourself, from design to finished print.
Use of the 3D printer is by reservation - please drop in or call the branch to reserve time. You will need a Denver Public Library card to make a reservation in advance. The maximum time you can reserve is two hours. We ask that people only make one reservation per week so as many people as possible can use the printers. Please read the full 3D Printer Policy below for details. We also have an FAQ below that for general questions about 3D printing.
Every ideaLAB has at least one Lulzbot printer. Visit your neighborhood lab to learn more! Please note that the ideaLAB at the Central Library will remain closed due to on-going renovations to the building.
Denver Public Library ideaLAB 3D Printer Policies
As the ideaLBs reopen, the use of tools may look somewhat different than in the past. One of the big changes we’re making is to give customers more of a hands-on experience using the 3D printer.
In order to help you use the 3D printer successfully (and safely), we ask that you read through the following policies:
- Please try to read through the 3D Printing Guide before your first visit if you can.
- Use of the 3D printer is by reservation only. For the present, a reservation gives you the right to use the printer for two hours, once per week. We ask that families and groups not make multiple or back-to-back reservations under different accounts - that makes it much harder for other people to get access to the 3D printers.
- Please know that if you don't show up within 10 minutes of your reservation time, the system will automatically cancel it.
- If the printer is broken when you have a reservation, we'll do our best to let you know ahead of time, but sometimes that may not be possible.
- You must check in with ideaLAB staff before using the machines so you can get the material you're using approved by lab staff and get the 3D printer toolkit. We want to make sure everyone is safe and that you're comfortable with the equipment.
- We're sorry, but you can't bring in your own filament. We want to keep jams and fumes to a minimum for everyone. We will provide free PLA+ filament, but we can't change out colors for each customer nor guarantee you a specific color.
- We'll give you some basic troubleshooting tips, but if something goes wrong, please don't do anything that involves disassembling printer hardware. Doing so will result in loss of privileges to use the machine. Please let us know if a problem pops up and we'll help!
- Things happen. Occasionally extruders will jam, beds will get scorched, and minor disasters will occur - these are understandable, and part of the process of learning how to use the printer, and will not affect your ability to reserve and use the machines.
If you do something intentionally dangerous or that we've asked you not to do - using unapproved filament, removing parts from the machines, etc. - you will lose your privilege to use the machines.. - DPL printers can not be used to print out any weapons (if it's for cosplay, talk to staff and we'll try to figure it out). Outside of that, most things should be fine, but the Library retains the right to refuse any print request for any reason.
- Set-up and clean-up time is part of your 2 hour reservation, so please plan accordingly! Please finish your 3D printing jobs at least 10 minutes before the session ends so you can clean up materials and station. Jobs can not be left running overnight or past the end of your 2 hour reservation.
3D Printing FAQ
What is 3D printing?
Start with this definitive guide where you’ll find everything you need to know about 3D printing, beginning with the very basics before diving deeper.
How much does it cost?
3D Printing is currently free at Denver Public Library!
What can be printed?
All printing is done with PLA, a bioplastic made of corn.
It might get a little melty if you leave it on your car dashboard, and you may not want to use it to make shelving mounts for your prize kettlebell collection. It's possible to make your model a little bit stronger by making it's walls thicker or requesting more infill. Ask us about it and we'll try to help you out. But if the piece you're printing is really mission critical in some way, use it at your own risk.
What cannot be printed?
Due to demand and limited resources, we can't print any job that will take over two hours. If you have something you'd like to print that will take longer than that, we're happy to help you try to figure out how to break up your model into smaller jobs, scale your print, or point you to one of the many paid 3D printing services. We also will not print out any weapons. Outside of that, most things should be fine, but the Library retains the right to refuse any print request for any reason.
Who can operate the printer?
Anyone who goes through an orientation with a staff member can! Read through the 3D Printer Policy above to learn how.
How To Get Your Object Printed
-
Create a file
- You can download an object file from a site like Thingiverse, Bld3r or use some of the lab's free modeling software like Tinkercad, Blender or SketchUp to make your own designs.
- Export your object as a .stl or .obj file. Need help? Just ask!
-
Make your reservation
- Reserve time by coming by the branch, calling, or come into the ideaLAB during our open hours. You can reserve up to two hours on the machine.
-
Print out your creation
3D Printing :: VBgov.com - City of Virginia Beach
Virginia Beach Public Library currently has MakerBot METHOD 3D printers for public use at the following library branches:
- Bayside Area Library (1)
- Kempsville Area Library (1)
- Meyera E.
Oberndorf Central Library (2) - TCC/City Joint-Use Library (2)
Please see the 3D Printing Guidelines and our Library Technology Policy for more information on acceptable use.
FAQs
What is 3D Printing?
MakerBot 3D printers are an example of Fused Deposition Modeling (FDM). Fused Deposition Modeling makes physical objects from three-dimensional digital models by melting and laying down many successive layers of a material. For more information, check out 3dhubs.com's online guide to 3D printing and knowledge base full of information and tips on 3D printing.
Why would I use a 3D printer?
3D printing is very useful for testing out inventions, whether it's a part, toy, vase, or anything else you may design. This is sometimes referred to as rapid prototyping. Others just have fun printing things found on the Internet (see below for more information). Trial and error is often a strategy used with 3D printing.
The quality can be very good depending on the design and selected print settings. However, be prepared to apply finishing touches after a print job is complete. The water-soluble PVA support filament will need to be dissolved. Sandpaper, pliers, tweezers, and nail files can also help to remove support materials and to smooth the surface of the object.
What material is used?
All printing is done with PLA (Polylactic Acid), a bioplastic made of corn. It is a great material for printing a wide range of things. However, it has its limitations. It is fairly strong, but it will shatter if enough force is applied. Therefore, it is not suitable for making weight-bearing parts or parts that need to withstand a great amount of pressure or impact. METHOD printers also have a
second extruder for support filament. PVA
(PolyVinyl Alcohol) is a synthetic polymer filament formed by polymerizing
vinyl acetate, which is then hydrolyzed to create PVA filament for 3D printing.
PVA is soluble in water, making it a great choice for a support material. The PVA will slowly dissolve in any water, but you can speed up the process by putting it in warm water, using an agitator/stirring, or letting it soak for a while then picking the support filament off with pliers. (Note: MakerBot does not recommend water temperatures above 35° C [95° F] due to higher possibly of warping model.) For more information, including a video, see this link from MakerBot. Because one extruder is
specifically for dissolvable support material, these printers only print one
color at a time. Colors and amounts of
available filament are not guaranteed.
How much does it cost?
3D printing is currently free at Virginia Beach Public Library.
Do I need a VBPL library account?
Yes, you must have a full-service library account in good standing to reserve and use the 3D printer. Customers with Internet Only library accounts are not eligible for 3D printer use.
Do I need training before I can use the printer?
Yes, a one-hour orientation is required. Any person with a verified VBPL library account in good standing, excluding Internet Only library accounts, is eligible to request an orientation. Customers 12 and under must be accompanied by a parent or guardian.
How do I sign up for an orientation?
Email [email protected] or call to request an orientation. We will take your information and general availability and will contact you within 2-5 business days to confirm your orientation date and time.
How do I request time on the equipment?
After you have attended an orientation, you may reserve the 3D printers through Library Market at http://vbpl.librarymarket.com .
Where can I find objects to print?
Thingiverse.com has huge collections of things to print. This is a great place to explore what other people have created or to get inspiration for inventing your own objects.
Most designs on this website are
Creative Commons licensed and are free to download and print. Alternatively, Autodesk's
Tinkercad.com is a basic, free web-based computer-aided design (CAD) platform for creating your own designs for 3D printers. SOLIDWORKS'
Onshape.com is a more advanced web-based CAD platform.
Is there a limit to how long I can print?
We only schedule during the Library's open hours. Print jobs need to be complete 30 minutes prior to closing. No overnight printing is permitted. You do not need to stay for the duration of your print job, but you are expected to stay with the printer while it builds the raft. You are also expected to return the same day to remove your object from the printer once complete. If your object will take more time than we can accommodate, you may want to consider using
Shapeways or
Sculpteo, two fee-based online 3D printing services. Although not required, you may want to consider creating an account with MakerBot CloudPrint to preview your object at home and get an estimate of how much time your print will take prior to making a reservation.
Terms of Use
Please print things that are appropriate for the Library environment and are either your own invention or are clearly marked for sharing with a
Creative Commons license. Virginia Beach Public Library reserves the right to refuse the printing of any content at any time at the discretion of Library staff. Additionally, you may also see the
3D Printing Guidelines and our
Library Technology Policy for more information.
Model libraries created as part of the Culture national project January 24, 2022
Model libraries created as part of the Culture national project January 24, 2022 | Nizhny Novgorod truthMap of new public transport routes in Nizhny Novgorod
Valid from August 23, 2022.
Download
Home | Article | How model libraries have become new points of attraction for Nizhny Novgorod citizens
Culture
Cool reading
Photo courtesy of Library
Interactive sandbox in the Skorobogatov library allows children to explore the world and develop fine motor skills
Read us at
Model Library is not just a book collection with a reading room, but a real cultural center equipped with the most advanced equipment.
In modern cozy transforming halls, you can not only read books, but also engage in various circles, listen to music and watch movies, just relax and chat. Families with young children, schoolchildren, and people of the "silver" age are happy to spend their free time here. Total since 201917 new generation libraries opened in the region, nine of them last year. Let's see what the readers got in the end.
"Smart Shelf"
In order for the library to become a member of the national project "Culture" and receive funds for repairs and modern equipment, it must initially be very active. The Dostoevsky Library of the Kanavinsky District of Nizhny Novgorod has been one of the best libraries in the city for many years.
“Now the library has completely changed, starting from the overhaul of the building and ending with the equipment,” Alla Igoshina, director of the municipal state institution of culture “Centralized Library System” of the Kanavinsky district, is giving us a tour.
– Now very interesting functional areas are highlighted in it. For example, a coworking room, where you can come in groups or individually, study on computers, watch film screenings, and hold meetings. This room can be rented for free.
There is a pro-center, or a youth zone, where young librarians do career guidance, hold many events and promotions for high school students. Here you can work on a graphics tablet, print a bookend or a children's toy on a 3D printer.
Access to funds is fully open. In the book room you can sit on the sofa, read new literature, listen to an audiobook, just relax. An information kiosk has been installed in the subscription hall, where you can get up-to-date information about library services, books, information resources of the National Electronic Library, resources of the Presidential Library. Yeltsin.
There is a children's creativity hall, where there will also be many circles and studios, teachers will work. This direction was developed even before the transformation of the library, but now it has received a new impetus.
Many events and activities will take place in the conference hall, which houses a gallery with paintings by local artists. For older people, the library will open free courses on mastering computer technology.
Today, the Dostoevsky Library is one of the most high-tech libraries in the Nizhny Novgorod region: the latest RFID technologies have been introduced here.
“Each book has special chips,” says Alla Igoshina. – By placing a book on the “Smart Shelf” rack and pressing a couple of buttons, you can return books without the participation of a librarian. To borrow a book, the reader simply needs to attach their electronic library card to the device. If the book is not included in the form, the electronic gate will not allow it to be taken out of the library.
The new visitor service system speeds up the process of searching and issuing literature several times.
Thousands of new books
We are especially glad to see such information centers in the outback.
The first library of a new generation in the Koverninsky district appeared in the village of Sukhonoska. The library is small in area, but due to the change in zoning, a computer room with access to electronic resources, a lecture hall with media space and a children's creative play space with open book funds appeared.
On the interactive touch panel, young readers can draw, watch entertainment and educational programs. In the reading room, instead of the usual chairs, there is a soft sofa. On a large interactive screen, you can show presentations, videos, including for circle work.
According to Tatyana Volkova, head of the Skorobogatov rural library-branch No. 15, space zoning allows everyone to find a comfortable corner for reading or relaxing. There are comfortable poufs next to the bookcases. There is a cozy multimedia chair designed for listening to music and educational materials. You can even practice on the windowsills, which have soft pillows, tablets, laptops and chargers.
In terms of the number of libraries modernized within the framework of the national project "Culture", the Nizhny Novgorod region has become the leader of Russia.
In the children's leisure zone - an interactive game table that allows you to learn writing, reading, and mathematics in a playful way. There is also an interactive sandbox operating on augmented reality technologies: the complex in 3D projection promotes the development of speech, memory, logic, thinking and fine motor skills of hands. Due to modular furniture, zones can be easily transformed.
All conditions have been created for people with disabilities: entrances and common areas have been equipped, special programs have been installed on computers for visually impaired people.
At the end of 2021, the library fund was replenished with almost 3,000 new books.
Arzamasmultfilm presents
A library updated according to the model standard has opened in the village of Vyezdnoye, Arzamas district.
Now there is a personal reading room "Knowledge Lab", a family reading studio "Stu-pe-ni", a creative gallery "Bibliomasterskaya", a digital reading room "Liberea +", a literacy center and an educational interactive space "Academy".
But the most important thing is a new format of interaction with readers.
“The very concept of the library has changed,” says Alla Loskova, director of the municipal library system of the Arzamas region. – A model library is a public space where you can come to work on a curriculum or a blog, to relax and socialize, to take part in an interesting educational or entertainment event.
Many opportunities for the development of creative abilities appeared in children. Now they can even try themselves as a multiplier - a real multi-studio has appeared in the library.
They don't forget their history here either. The founder of the library, Ivan Nikolaevich Sakharov, is dedicated to the Sakharov Hall with a memorial exposition.
Six more libraries in the Nizhny Novgorod region will be modernized this year.
This is the library. B. P.Kornilov of the city district Semyonovsky, library named after. A. S. Pushkin in the Bolshoy Boldino, the library. L. N. Tolstoy in Dzerzhinsk, a library in Mulin, Volodarsky district, a central children's library in the Volga region and a children's library named after. M. Gorky in the regional center.
Everything about the implementation of national projects in the Nizhny Novgorod region - in the section "National projects for people"
Subscribe to our Telegram channels:
Share
Most Popular
Partner news
News Mirtesen
from
Printing organs: how ears, skin and noses are made with a 3D printer
- Natalka Pisnya
- BBC Russian Service, USA
Photo copyright, Masela family archive
Photo caption, Luc Masela with his parents one month after the artificial bladder transplant.
year 2001.
Luc Masela, now 27, is an athlete with a degree in economics, works for a large exhibition company, travels a lot and recently met, in his words, "the most beautiful girl in the world." Both she and most of his current friends were extremely surprised when they learned that 17 years ago he survived a dozen and a half operations.
Luke was born with spina bifida - and although he was able to walk, his bladder was severely damaged. By the age of 10, he almost did not leave hospitals: due to improper functioning of the bladder, fluid began to return to the boy's kidneys, doctors diagnosed an irreversible pathology of the organ.
You need JavaScript enabled or a different browser to view this content
Video caption,"3D printed" organs are here
Doctors offered the family two solutions: lifelong dialysis or the creation of a new bladder from a segment of the intestine.
This would guarantee Luke several years of medically supervised life and a high risk of developing cancer.
The urologist in charge of the boy suggested that Masela's family take part in an experimental program to grow a new bladder from his own cells. Then, in 2001, it sounded like science fiction: only nine people took part in the program before Luke. Despite this, his family agreed.
"The essence of the operation was reduced to two stages: first, a piece of bladder tissue was taken from me, and over the next two months, cells were grown in the laboratory in order to grow a new healthy bladder from them," says Luke.
Photo copyright, Masela family archive
Photo caption,Luc Masela, 17 years after the artificial bladder transplant
Next was the transplant operation, which, according to him, lasted 16 hours. “I opened my eyes and saw a cut through my entire stomach, tubes of all possible sizes were sticking out of me, except for them - four IVs and a bottle-feeding machine,” he recalls.
“I stayed in the hospital for another month, I was prescribed bed rest, after that I stayed at home for another month.
The operation was performed by Dr. Anthony Atala, Pediatric Regenerative Surgeon. In two months, out of a hundred patient cells, scientists created one and a half billion. Further, an engineering structure was created on a collagen frame: the bladder was “sculpted” like a two-layer pie, the core of which dissolved over time, and it started working like an ordinary organ, taking root thanks to Luke’s own cells.
- An animal capable of regrowing its head
- The birth of a chimera: why do scientists need a human-animal hybrid?
- Swedish company 3D prints body parts
Luke and Dr. Atala haven't seen each other for 10 years after being discharged from the hospital. Once a dying child became the champion of the school wrestling team and went to college.
The professor took charge of the Wake Forest Institute of Regenerative Medicine in North Carolina in those 10 years, but he never forgot about Luke: his bladder was one of the most challenging and most successful projects in his early practice.
By 2018, Atala won the Christopher Columbus Prize for "work on a discovery that will have a significant impact on society"; The Times and Scientific American magazines at various times named him "Physician of the Year", he was also recognized as "one of the 50 scientists on the planet who in the next 10 years will change the way we live and work."
How to print a new face
Skip the Podcast and continue reading.
Podcast
What was that?
We quickly, simply and clearly explain what happened, why it's important and what's next.
episodes
The End of the Story Podcast
In the mid-2000s, the Atala team turned their attention to an ordinary household 3D printer and wrote special software for it, later specialized machines were created for the laboratory. Now the laboratory "grows" up to 30 different types of cells and organs, as well as cartilage and bones.
One of the team's latest achievements is ears and noses grown outside the human body.
The main customer and sponsor of Atala's developments is the US Department of Defense, and many patients are military victims of military operations.
It works like this: first, a CT scan of the ear or nose is done. One of Atala's assistants, Joshua Corpus, jokes that at this stage, people often ask to "improve" the shape of the nose if they thought theirs was too wide or hooked, and the ears if they were too wide.
After that, a special computer code is written, and the printing of the basis of the organs begins.
For this, a bioresorbable polymer, polycaprolactam, is used. At the same time flexible and durable, in the human body it disintegrates within four years.
After printing, the layers of polycaprolactam resemble lace; after transplantation, their place will be taken by a person's own cartilage tissue in a few years.
Polycaprolactam is then saturated with a gel created from the patient's cells, cooled to -18 degrees Celsius - so the cells, according to scientists, are not damaged, they are "alive and happy."
Image caption,Printing a test kidney sample on a bioprinter
In order for the polymer and gel structure to take shape and become something more durable, ultraviolet light is used in the laboratory - it does not damage cells.
The future implant is printed for 4-5 hours, then it is finally formed and inserted under the epidermis.
Skin can also be grown: children affected by fires were the first to participate in the early trials of Atala - after the "printing" of the skin, scientists observed the patients for several more years.
The new skin did not crack, did not burst, and grew with the children.
The most difficult work, according to the scientist, is facial wounds: it is not enough just to stretch the skin, you need to accurately calculate the geometry, align swelling, bone structure, and understand how a person will look after that.
In addition to the skin and ears, Atala can "print" the bones of the jaws, grow blood vessels and cells of some organs - the liver, kidneys, lungs.
This technology is especially appreciated by oncologists: on the basis of patient cells, it is possible to recreate the body's response to various types of chemotherapy and observe the reaction to a particular type of treatment in the laboratory, and not on a living person.
But the liver, kidneys, lungs and heart are still being tested. Atala says he raised them in miniature, but creating organs from various tissues to real size requires a lot of additional research.
But, according to him, cells were grown in the laboratory and a vagina was created for a girl who was born several years ago with a congenital deformity of the genital organs - several years have passed since the transplant.
Image caption,Bioprinted polycaprolactam ear implant base
Atala smiles and adds that his team is also working on a working penis. This research has been going on for several years, and the most troublesome for scientists is the complex structure of tissues and the specific sensitivity of the organ itself.
Among others, Igor Vasyutin, a Russian post-graduate student of the First Moscow State Medical University (MGMU) named after Sechenov, is working on this under laboratory conditions. He is a cell biologist, Atala's right hand.
Vasyutin has been in the USA for about a year - he came on an exchange. He is ready to talk about the behavior of stem cells for hours, but becomes less verbose when it comes to Russian science.
Vasyutin's alma mater has not reached mass regeneration of human organs and is still training on animals: local scientists "printed" a mouse thyroid gland on a 3D printer.
However, they are also involved in the study of human organs. According to the head of the Institute of Regenerative Medicine at MSMU Denis Butnar, several years ago the Institute recreated a special engineering design of the buccal mucosa. She functioned perfectly for the first six months, but subsequently had to undergo a second operation.
Image caption,Test specimen of an ear implant exposed to ultraviolet light
In Russia, however, over the past few years, the Italian surgeon-transplantologist Paolo Macchiarini has been practicing, the man who was the first in history to perform an operation on transplanting a synthetic organ - a plastic tube that replaced the patient trachea.
- Paolo Macchiarini: the rise and fall of the famous surgeon
However, seven of his nine patients died, and the breathing tubes implanted in the remaining two subsequently had to be replaced with donor ones.
Several criminal cases were brought against him, including on charges of pressure on patients and fraud, and the world's leading doctors called Macchiarini's operations "ethical Chernobyl."
Will printed organs replace donors?
At the zenith of his career, Macchiarini argued that a new perspective is opening up for humanity: you can "print" any human organ on a printer, create an engineering structure from it, enriched with the patient's stem cells, and get the perfect prosthesis.
Be that as it may, complex human organs - the liver, kidneys, heart, lungs - have not yet been able to grow any regenerative surgeon.
Bioprinting of the so-called simple organs, however, is already available in the US, Sweden, Spain and Israel - at the level of clinical trials and special programs.
The American government is actively investing in such programs - in addition to Wake Forest, cooperating with the Pentagon, the Massachusetts Institute of Technology also receives significant amounts to recreate the work of the liver, heart and lungs.
Skin application test on a burnt wound
According to Professor Jorge Raquela, a gastroenterologist at the Mayo Clinic Research Center, "Bioprinting is one of the most exciting branches of modern medicine, it has huge potential, and the turning point of the most important discoveries is already close."
Meanwhile, Pete Basillier, head of R&D at analytics firm Gartner, insists technology is advancing much faster than understanding the implications of 3D printing.
Such developments, according to Basilière, even if created with the best of intentions, give rise to a set of questions: what will happen when "improved" organs are created, the basis of which will not only be human cells - will they have "superpowers"? Will a regulatory body be created to monitor their production? Who will check the quality of these organs?
More than 150,000 Americans are on the waiting list for organ transplants each year, according to a report from the US National Library of Medicine.
Donor organs will receive only 18% of them; every day in the United States, without waiting for a transplant, 25 people die. Organ transplants and subsequent rehabilitation cost insurance companies and patients $300 billion in 2012 alone.
- A 3D printer helped a cyclist who lost his jaw
- Genetically modified pigs - human organ donors?
- The world's first child who received both hands transplanted plays baseball
Most Americans are potential donors: upon obtaining a driver's license, they voluntarily answer the question of whether they agree to donate their organs in the event of a car accident or other dangerous incident . In case of consent, a small "heart" and the word "donor" appear in the corner of the document.
Professor Atala's driver's license is like that - despite all his achievements and faith in the "publishing organs", he is ready to share his with those around him.
