3D打印是一种增材制造技术，通过逐层堆叠材料来形成产品。

3D打印与传统制造有何不同？

3D打印是增材制造，而传统制造（如CNC）是减材制造，后者通过去除不必要的部分来形成产品。

3D打印的主要优势是什么？

3D打印在小批量多样化生产中展现出成本效益和时间优势。

3D打印适用于哪些领域？

3D打印可应用于食品、汽车配件、医疗器械、艺术品等多个领域。

3D打印的材料有哪些？

3D打印可使用塑料、金属、陶瓷等多种材料。

未来3D打印技术的发展前景如何？

随着技术的进步与应用场景的拓展，3D打印将在家庭和工业中得到更广泛的普及。

機細胞也能3D列印奧秘在「這裡」！【列印未來進行式】＿EP02

00:24:01

https://www.youtube.com/watch?v=YfTlYZmvq3U

Resumen

TLDR视频详细介绍了3D打印的基本原理、不同类型和材料的选择，以及在各个行业的应用。对比传统减材制造，3D打印通过增材制造显著降低成本和生产时间，特别适用于小批量、多样化的生产需求。包括制作食物、汽车部件和医疗器械等多种实际应用案例，展示了这一技术的无限潜力。此外，视频还探讨了3D打印在未来的广泛应用和发展趋势。

Para llevar

📊 3D打印是增材制造，与减材制造不同。
⚙️ 适用于小批量多样化生产，显著降低成本。
🛠️ 多种类型的3D打印技术，如FDM和SLA。
🍔 3D打印可用于制作食物等创意产品。
🚗 3D打印在汽车部件生产中的应用。
🏥 医疗器械和定制假体的潜在应用。
🔬 生物打印技术的发展与前景。
🌍 未来3D打印将在家庭和工业中普及。
💎 珠宝设计中对高精度的需求。
📈 随着技术进步，3D打印需求将不断增长。

Cronología

00:00:00 - 00:05:00
视频探讨了3D打印技术的现状与未来，主持人介绍了3D打印的工作原理以及与传统减法制造（如CNC）相比的增法制造特点，并与机械工程教授郑教授讨论了各种3D打印机及其应用。
00:05:00 - 00:10:00
在这段中，主持人走访了位于苏州的3D打印技术公司，观看了使用高性能塑料打印的汽车千斤顶，并了解到高性能塑料在强度上已接近金属，展示了现代3D打印技术的广泛应用及其在汽车行业的潜力。
00:10:00 - 00:15:00
接下来的部分介绍了3D生物打印机的工作原理，这种机器能打印出细胞构建的支架，虽然目前尚不能直接打印人类器官，但其在组织工程领域的应用具有重大意义。
00:15:00 - 00:24:01
最后，主持人回到台湾，参观了各种3D打印机及其产品，如全色彩3D打印机，并讨论了3D打印在珠宝、医疗等产业中的应用及其未来发展潜力，认为3D打印将逐步普及并改善人们的生活。

Mapa mental

Vídeo de preguntas y respuestas

什么是3D打印？
3D打印是一种增材制造技术，通过逐层堆叠材料来形成产品。
3D打印与传统制造有何不同？
3D打印是增材制造，而传统制造（如CNC）是减材制造，后者通过去除不必要的部分来形成产品。
3D打印的主要优势是什么？
3D打印在小批量多样化生产中展现出成本效益和时间优势。
3D打印适用于哪些领域？
3D打印可应用于食品、汽车配件、医疗器械、艺术品等多个领域。
3D打印的材料有哪些？
3D打印可使用塑料、金属、陶瓷等多种材料。
未来3D打印技术的发展前景如何？
随着技术的进步与应用场景的拓展，3D打印将在家庭和工业中得到更广泛的普及。

Ver más resúmenes de vídeos

Obtén acceso instantáneo a resúmenes gratuitos de vídeos de YouTube gracias a la IA.

Subtítulos

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Desplazamiento automático:

00:00:23
THE PRESENT AND FUTURE OF 3D PRINTING
00:00:27
THE SECRET OF 3D PRINTER
00:00:30
Living in a modern world
00:00:31
you should know very well about digital printer
00:00:33
CHEN GUANHAO, HOST
00:00:34
We're even able to list them
00:00:35
inkjet printer, laser printer and so on
00:00:39
But do you know how a 3D printer works?
00:00:42
And what are the varieties of 3D printers?
00:00:45
Have you ever thought about how 3D printers print foods
00:00:48
hearts, cars, and even airplanes?
00:00:52
Today, let's follow me and reveal the mysteries of 3D printing
00:00:54
and reveal the mysteries of 3D printing
00:00:57
Let's go
00:00:59
Conventional manufacturing method, such as CNC
00:01:02
is subtractive manufacturing
00:01:03
It is like wood carving
00:01:05
getting rid of the unwanted parts
00:01:07
and keeping what is needed
00:01:12
As opposed to CNC being subtractive manufacturing
00:01:14
3D printing is additive manufacturing
00:01:16
It's a process of stacking layers of material together
00:01:18
to shape the products that we want
00:01:20
Professor Zheng, am I correct?
00:01:22
Yes, that's correct
00:01:24
ZHENG ZHENGYUAN, PROFESSOR OF MECHANICAL ENGINEERING, NTUST
00:01:28
3D printing is achieved by stacking material together layer by layer
00:01:29
As the name suggests
00:01:34
it's a type of printing method
00:01:38
How many types of printers do you know?
00:01:41
Printers
00:01:42
I can think of laser printer and inkjet printer
00:01:45
That's right
00:01:46
The concept of 3D printing
00:01:49
is the same as regular printing
00:01:51
It involves laser fusing material
00:01:53
or inkjet shaping a product
00:01:57
It's just that regular printers print on paper
00:01:59
And now, 3D printers print on plastic
00:02:03
metal, ceramic or other materials
00:02:06
to build a product layer by layer
00:02:09
Professor Zheng, you've just mentioned
00:02:11
that there are different types of 3D printers
00:02:13
If I have different needs
00:02:14
let's say I want to print a fish like this
00:02:16
and an automotive engine
00:02:20
can I use the same 3D printer?
00:02:22
Of course not
00:02:23
Something like this is relatively cheap
00:02:26
It has a rough surface finish as well
00:02:28
It doesn't has important functionality
00:02:31
Functionality is a key element, closely related to cost
00:02:35
To make things like this
00:02:36
we can use cheaper equipment
00:02:38
with a lower level of resolution
00:02:40
And you know, aircraft engine is very valuable
00:02:43
It used to take over 800 parts to make one
00:02:45
now we only need to print 12 parts
00:02:47
to assemble an engine
00:02:48
Materials are fused together with laser
00:02:50
3D laser printers used for printing aircraft engine
00:02:52
cost tens of millions of dollars
00:02:55
That's very expensive.Yes
00:02:57
By choosing materials and shaping methods
00:03:00
required for your product
00:03:01
you can print anything you want
00:03:04
That's what makes 3D printing so magical
00:03:08
I don't think I can afford printing an aircraft engine
00:03:10
Let's just print this cute little fish
00:03:16
I think my fish is ready
00:03:18
I'm going to dish it up
00:03:20
Usually there should be steam
00:03:21
coming from the machine
00:03:23
Let's lift it up
00:03:25
Professor, you see, my fish is ready
00:03:27
But why isn't there any meat?
00:03:29
Didn't you just secretly eat it?
00:03:32
No, I didn't
00:03:33
If the meat was included in your design
00:03:35
it'd be in the end product
00:03:36
Whatever you've designed
00:03:37
is exactly what you've got via 3D printing
00:03:40
Professor, I've been thinking
00:03:42
It took us less than an hour
00:03:45
to make this
00:03:47
Without 3D printing
00:03:49
how long will it take to make something like this?
00:03:52
You see, the fish is composed of nine parts
00:03:55
So nine molds will be required
00:03:57
Nine molds will take three months
00:04:00
and 300,000 dollars to make
00:04:02
My gosh
00:04:03
Do you mean 300,000 dollars for one mold?
00:04:05
Yes. So nine molds will take
00:04:06
Nearly three million dollars
00:04:09
Are you telling me it would take three months
00:04:12
and three million dollars?Yes
00:04:13
This keyring is very expensive
00:04:15
Yes
00:04:16
So with conventional manufacturing
00:04:18
it takes a long time to produce
00:04:20
such a complicatedly structured product
00:04:23
You can imagine the number of fish
00:04:26
we need to sell to cover the cost
00:04:29
Therefore
00:04:30
when it comes to small-volume,and large-variety production
00:04:34
3D printing has great advantage
00:04:37
It's this huge advantage
00:04:40
that attracts the academics and the commerce sectors
00:04:42
in the whole world
00:04:43
to jump on this technology bandwagon
00:04:47
Now let's fly with me out of Taiwan
00:04:48
and explore the multifaceted 3D printing technology
00:04:54
KUNSHAN, SUZHOU
00:04:58
My first stop is Kunshan, Suzhou
00:05:01
We can definitely find some amazing 3D printers
00:05:03
in this industrial town
00:05:05
However, these products
00:05:07
are not quite what I've expected
00:05:09
Am I here to buy models
00:05:11
or musical instruments?
00:05:13
No, I'm here to look for 3D printers
00:05:15
This is just the showcase floor
00:05:17
Here in this technology company
00:05:19
they have many self-developed 3D printers
00:05:22
Any 3D printers used in different industries
00:05:24
can be found here
00:05:29
What is it printing?
00:05:30
It's hard to tell
00:05:31
What is it?
00:05:32
It is what I've just printed
00:05:34
I've just printed a screw
00:05:36
A screw?A bolt
00:05:38
A bolt?
00:05:39
FUSED DEPOSITION MODELING (FDM) 3D PRINTER
00:05:40
But the texture doesn't look like metal
00:05:43
Could it be..
00:05:45
newly developed high-tech material?
00:05:47
This is a bolt that I've just printed
00:05:49
A bolt
00:05:50
Normally we'd expect a bolt
00:05:52
to be made of metal
00:05:53
Right? No, this is made of
00:05:54
a high-performance plastic, known as PC ZHAO YULIN, ASSISTANT GM, 3D PRINTING TECH COMPAN
00:05:57
At the back, you can see there is a coil
00:05:59
of very thin wire rod with a radius of 1.75 cm
00:06:03
It's heated and melted and then extruded layer by layer
00:06:07
Guess what these bolts are for?
00:06:09
I'm not sure, furniture?
00:06:11
Furniture? Yes
00:06:11
They will be used to make a car jack
00:06:14
It's what we use to lift a vehicle
00:06:15
To jack up a vehicle?
00:06:17
Yes, because they have a high shear strength
00:06:18
Really?
00:06:20
But...
00:06:21
normally we'd expect it to be made of metal
00:06:23
So does this have enough shear strength?
00:06:25
There has been a rapid development in materials
00:06:27
Nowadays,high-performance plastics
00:06:29
are in the same performance realm as metals
00:06:31
Their strength is comparable to stainless steel
00:06:33
How much weight can this bolt withstand?
00:06:36
This bolt can withstand about one-ton load
00:06:39
One ton?Yes
00:06:41
So it can be used to make a car jack
00:06:43
Definitely, let me show you a car jack that we've printed
00:06:46
The bolts are in there
00:06:47
So not just the bolts
00:06:48
the whole thing is printed with 3D printing, isn't it?
00:06:50
The entire jack is printed
00:06:52
with this 3D printer
00:06:54
That's impressive.Yes
00:06:57
Let's test its strength to see if it's really that impressive
00:06:59
Can this 3D-printed plastic car jack
00:07:02
bear the weight of a car?
00:07:05
It's really able to lift a car
00:07:08
Let's try it out
00:07:09
That's astounding
00:07:12
I can feel that the car is being lift up
00:07:18
That's amazing
00:07:19
The wheel can spin
00:07:21
Yes
00:07:23
It's incredible
00:07:25
The entire car jack is printed with 3D printing
00:07:28
Yes
00:07:28
Every part of it is printed with 3D printing
00:07:30
And it's made of plastic
00:07:32
Yes.That's impressive
00:07:33
Right
00:07:34
Mr. Zhao, have you put this product on the market?
00:07:36
No, we don't sell this
00:07:37
We only provide printing services on request
00:07:40
We only provide printing services on request
00:07:42
we'll help them print it
00:07:43
So the reason why you've made this jack
00:07:44
is that you want to prove
00:07:45
that your products are very durable
00:07:47
And sturdy.That's right
00:07:49
All printed creations are functional components
00:07:50
That's amazing
00:07:51
Plastic products produced with 3D printing technology
00:07:54
are as strong as their metal counterparts
00:07:57
This equipment has absolutely amazed me
00:08:00
Next, we're going to
00:08:01
check out a commonly talked about
00:08:04
but almost unimaginable 3D printing technology
00:08:07
Take a guess
00:08:08
What does this machine do?
00:08:10
Well...
00:08:12
It looks mysterious
00:08:13
I wonder what it print
00:08:14
Glass?Right
00:08:15
It probably prints some sort of fragile item, like glass
00:08:18
This is actually a 3D bio-printer
00:08:21
LIU FUTAN, DEVELOPMENT ENGINEER, 3D PRINTING TECH COMPANY
00:08:22
You mean it prints cells.Yes
00:08:25
How does that work?
00:08:29
Well, this is a print bed
00:08:32
Next
00:08:34
The extruder is controlled by the electrical machine
00:08:37
to move along the X, Y, Z axes
00:08:40
And this is...
00:08:42
So what would be the infill then?
00:08:44
It's like this
00:08:45
This is an infill cartridge
00:08:48
Before printing
00:08:50
we'll put the infill material into this cartridge
00:08:54
It's a type of bio-inspired hydrogel
00:08:56
And then
00:08:58
The bio-inspired hydrogel will be fused into the cells
00:09:01
That's the concept of this 3D bio-printer
00:09:04
So this is the legendary 3D bio-printer
00:09:08
Would I get to witness
00:09:09
the process of printing a human organ?
00:09:12
So what would the printed products look like?
00:09:15
There are two main types of products
00:09:18
One is in a grid shape like this
00:09:22
We call it cytoskeletal
00:09:24
It's a common component in tissue engineering
00:09:28
This is printed with hydrogel
00:09:30
Its function is
00:09:32
like building a house for the cells to grow
00:09:37
So this hyped bioprinting technology
00:09:40
does not actually print a human organ
00:09:42
but build a house for the cells
00:09:45
For instance, an ear-shaped bio-container is printed
00:09:47
as a house for the cells
00:09:49
to grow into what we want
00:09:51
to be transplanted into humans
00:09:54
Although it doesn't directly print a human organ
00:09:55
this technology is still an epoch-making invention
00:10:03
What is this?
00:10:04
This is a 3D ceramic printer
00:10:06
It's now printing something
00:10:07
It takes a laser operated at a power of only 0.6 watt
00:10:11
It's enough to solidify the product
00:10:13
XU TAN, R&D SUPERVISOR 3D PRINTING TECH COMPANY
00:10:14
So is 0.6 watt a high power?
00:10:17
No
00:10:18
If you are to print metal
00:10:20
it'd require a higher wattage
00:10:22
like hundreds and thousands of watts
00:10:24
That's a big difference.Yes
00:10:26
If you stick your hand in this, I think you'd be fine
00:10:29
I'd rather not
00:10:31
You'd rather not
00:10:32
You can see it's smoking
00:10:34
In comparison
00:10:35
as it's still smoking
00:10:36
the wattage of its laser
00:10:37
is probably higher
00:10:40
Mr. Xu, stop joking around
00:10:41
LASER SLA 3D Printer
00:10:42
Although the UV laser operates at a low wattage
00:10:45
during operation
00:10:46
you can see white smoke
00:10:48
coming out of the photosensitive resin
00:10:50
I think I'll just keep listening to the introduction
00:10:53
What kind of products involve
00:10:56
ceramic 3D printing?
00:10:59
In general, ceramic 3D printing
00:10:59
is used to print products
00:11:02
that are customized...and complexly structured
00:11:05
For those products
00:11:07
that are difficult to made
00:11:10
by conventional manufacturing
00:11:11
we can use this technology instead
00:11:12
It's particularly suitable for customized products
00:11:15
like prosthetic teeth
00:11:16
Everyone's prosthetic teeth are different
00:11:17
Prosthetic teeth?Yes
00:11:19
Everyone's teeth align differently
00:11:21
So it's impossible to use batch production
00:11:23
for prosthetic teeth
00:11:24
But if we use this,all you need is the design
00:11:27
Then you can just print it directly
00:11:32
In my trip to Kunshan, Suzhou, I've found out
00:11:35
laser sintering
00:11:36
stereolithography
00:11:37
fused deposition modeling, and so on
00:11:38
are all different types of 3D printers
00:11:40
What about printing materials?
00:11:42
Materials are also a key element in 3D printing
00:11:45
This material developing factory in Shanghai
00:11:48
has done intensive research
00:11:50
on 3D printing materials
00:11:53
Mr. Qu, I'm very curious
00:11:55
Among these materials
00:11:57
how do you choose
00:11:58
for a particular application?
00:12:00
Yes, that is a common question raised by the clients
00:12:04
Let's start with a simple example
00:12:06
QU HANG, VP OF MARKETING SHANGHAI 3D MATERIAL TECH COMPANY
00:12:07
A designer has designed a cell phone, a toy
00:12:10
or an automotive part for the vehicles
00:12:14
In this case
00:12:16
if the designer wants to know how the end product looks like
00:12:19
the simplest and the best option is PLA
00:12:22
It's because it shapes faster,and doesn't bend easily
00:12:26
In that case
00:12:28
you aim to achieve the highest level of precisio
00:12:30
in terms of size
00:12:31
FDM 3D PRINTER WITH PLA MATERIAL
00:12:33
Let's say I've designed an auto part
00:12:35
which requires a length of 3 millimeters
00:12:37
It has to be precise
00:12:38
Using PLA will be able to achieve the highest level of precision
00:12:43
in an expeditious way
00:12:44
But the problem with PLA is it can't bear too much weigh
00:12:47
So PLA products
00:12:48
It's only about the look. That's right
00:12:50
It's only about the appearance
00:12:51
As long as you can see the design
00:12:52
then its job is done
00:12:55
So if you're on a tight schedule
00:12:57
and the product is only for visual purpose
00:12:59
rather than loadbearing function
00:13:02
PLA is a good option
00:13:04
Yes, it is indeed
00:13:06
To put it simply
00:13:07
the purpose of a product
00:13:10
dictates the choice of materials
00:13:12
Not only can this factory provide a selection of plastics
00:13:16
but more impressively
00:13:17
they can customize the materials
00:13:19
according to the client's needs
00:13:21
Every industry has different demands for materials
00:13:24
Aircraft parts need to be made of fire-retardant materials
00:13:25
In case of a fire
00:13:27
you've got to make sure the parts don't burn
00:13:29
and are able to stop the spread of fire quickly
00:13:31
All materials used to make aircraft parts
00:13:33
basically must meet the flammability standard of V0
00:13:37
V0 is a rating in UL's plastics flammability standard
00:13:40
We have specifically developed for the aircrafts
00:13:43
a type of polycarbonate that is fire-retardant
00:13:46
This type of PC meets the standards for aircraft use
00:13:50
It's currently used on the aircrafts of an airliner
00:13:54
3D printing has been designed to achieve customization
00:13:58
so materials can also be modified and developed
00:14:01
to satisfy the client's needs
00:14:03
From front-end manufacturing
00:14:05
to back-end manufacturing
00:14:06
3D printing is a fully customizable technology
00:14:11
TAIPEI
00:14:14
I've traveled to a few places and seen various 3D printers
00:14:17
But what about the development of 3D printers in Taiwan?
00:14:20
The company right behind me
00:14:22
has the answer I'm looking for
00:14:23
Let's go
00:14:34
Character figurines
00:14:36
And this delicious-looking gaifan model
00:14:40
I suppose these are all printed with 3D printing technology
00:14:45
But what about this
00:14:47
Hey, Gary
00:14:49
I suppose this is not a 3D printed product, is it?
00:14:51
All of them are.Really?
00:14:52
SENIOR MANAGER, SHU JIA
00:14:53
MARKET DEVELOPMENT
00:14:54
Everything you see on the table is printed in one piece
00:14:55
with 3D printing technology
00:14:56
Really? Even this one?
00:14:57
Yes
00:14:58
But it's a vase
00:15:01
With today's 3D printing technology
00:15:03
you can make a vase as beautiful as this
00:15:05
Are all these machines designed in-house?
00:15:08
Yes, they are all developed,designed and produced in-house
00:15:12
They are all in-house products
00:15:14
Can you please show me around?
00:15:15
Sure, let's check them out
00:15:17
In this global trend of 3D printing technology
00:15:19
Taiwan has been a competitor
00:15:21
From printers for general use
00:15:23
printers for delicate crafting
00:15:25
to large industrial-strength printers
00:15:27
you can find all kinds of 3D printers here
00:15:29
Moreover, Gary has said
00:15:31
they have this one and only 3D printer in the world
00:15:34
And I get to try it out myself
00:15:38
I think Gary has noticed. I'm a glutton
00:15:40
That's why he has given me a hamburger
00:15:42
It looks very delicious
00:15:43
Let's have a try
00:15:49
Gary, why don't you stop me?
00:15:51
No, because I want to see
00:15:52
what would happen if someone actually bites it
00:15:53
I'm eating it for real
00:15:55
Please do
00:15:57
We've used our latest full-color 3D printing technology
00:16:00
to print this hamburger model
00:16:02
You can have a try
00:16:03
Gary, you've said this is
00:16:05
full color
00:16:06
Do you mean every layer of it
00:16:07
including the meat and vegetables
00:16:09
is not individually printed
00:16:10
and held together with glue?
00:16:12
Actually, the process begins with 3D scanning software
00:16:15
Whether it be scanning a hamburger
00:16:17
or drawing a hamburger on the computer
00:16:20
we then use this latest full-color 3D printer
00:16:23
to print the product in one piece
00:16:28
Gary, are you saying this is the one and only 3D printer
00:16:31
in the whole world?Yes
00:16:33
What's so unique about it?
00:16:35
I'm not saying
00:16:36
this is the only full-color 3D printer in the world
00:16:38
But most 3D printers at consumer level
00:16:41
can only print in one color
00:16:44
One ink, one color
00:16:46
Products like this
00:16:47
However, we've also adopted
00:16:49
a familiar inkjet printing technology
00:16:52
that allows materials to be added layer by layer
00:16:54
to achieve full color effects
00:16:55
So far, this technology can't be found elsewhere
00:17:00
Taiwan's self-developed full-color 3D printer
00:17:03
sounds really impressive
00:17:05
More importantly
00:17:06
it's been described as the most friendly printer
00:17:09
because of its surprising price
00:17:13
Back then
00:17:14
it cost an arm and a leg
00:17:16
to achieve full-color 3D printing
00:17:17
A printer would cost at least millions of Taiwan dollars
00:17:20
But...Millions
00:17:21
We hope to provide
00:17:22
an equipment with this new technology
00:17:25
at an affordable price
00:17:27
for the general consumers
00:17:29
and individual entrepreneurs
00:17:33
This is not just a price war
00:17:35
Despite its modest price tag
00:17:37
it can produce amazingly colorful creations
00:17:40
with incredible quality
00:17:43
Gary, you know what
00:17:44
I like things that are flexible like this
00:17:46
Can I print a Mona Lisa?
00:17:49
Not only can you print a Mona Lisa
00:17:51
but also a "Mona Guan Hao" if you want
00:17:54
All you need is your photo
00:17:55
I just need my photo to print this
00:17:57
Yes
00:17:58
But this is 3D.Yes
00:18:00
All we need to do is using our special technique
00:18:03
to attach your photo on it
00:18:05
So is this also a kind of customization?
00:18:07
Yes, one characteristic of 3D printing
00:18:08
is high level of customization
00:18:11
I didn't expect that I got to use
00:18:12
the world's one and only full-color 3D printer
00:18:15
to print a personalized mouse pad with my face on it
00:18:18
What will it look like?
00:18:20
No hurry
00:18:22
While it's printing
00:18:24
let's see what other 3D printers
00:18:25
have been developed in Taiwan
00:18:28
I'm not robbing a bank
00:18:30
Look at these rings
00:18:32
Have you noticed something?
00:18:33
There is no diamond on them
00:18:36
Gary, why isn't there diamond on these rings?
00:18:38
These are some products using 3D printing technology
00:18:43
Are all these printed with 3D printing technology?
00:18:45
Are all these printed with 3D printing technology?
00:18:47
according to these 3D-printed models
00:18:49
When the designers have approved the design
00:18:51
they will proceed to rollover and make the real ones
00:18:54
Why don't they just
00:18:55
skip to print the real ones?
00:18:58
Although metal 3D printing can achieve that
00:19:00
yet it costs dearly
00:19:02
And the precision is not as good as the photosensitive resin
00:19:07
The jewelry industry has a very high standard
00:19:11
requiring a precision of 50 micrometers
00:19:13
This degree of precision
00:19:14
can only be achieved with this technology
00:19:16
So does that mean this equipment
00:19:19
is specifically used for jewelry design?
00:19:20
Apart from jewelry design
00:19:22
another application
00:19:22
also requires high level of precision
00:19:24
and customization
00:19:25
It's for dental or medical application
00:19:29
Dental application?
00:19:30
Really?
00:19:31
For instance,what you're holding
00:19:34
is a surgical guide template
00:19:35
It's designed for dentists or any other physicians
00:19:40
Before the operation
00:19:41
they need to locate the areas
00:19:43
for hole-drilling
00:19:45
and other surgical procedures on the patient
00:19:48
With 3D printing technology
00:19:50
a guide template like this can be printed
00:19:52
to allow the surgery to be performed
00:19:55
more precisely and efficiently
00:19:57
For high stand of precision as required by jewelry design
00:20:00
and medical application
00:20:01
they can come here
00:20:02
for the 3D printers that meet their needs
00:20:05
But don't think that
00:20:06
Taiwan's development of 3D printers
00:20:08
is limited to small to medium-sized equipment
00:20:11
In fact, the development of large-scale 3D printers
00:20:13
like laser sintering
00:20:15
used for printing industrial samples
00:20:19
is actually in full swing in Taiwan
00:20:21
To gain a deep understanding
00:20:22
of the weal and woe in the development process
00:20:25
I'm going to be a one-day engineer again
00:20:27
and see what I can find
00:20:29
Mr. Lu,
00:20:30
if I want to print a model figure
00:20:31
how long does it take to do so?
00:20:34
In terms of the equipment of other brands
00:20:35
LU SHINAN, ENGINEERING SUPERVISOR
00:20:36
that are equivalent to this one right here
00:20:38
it takes over 10 hours
00:20:40
to print a 10 cm model figure
00:20:42
But with this one
00:20:43
it takes around five hours to finish printing
00:20:45
Five hours?Yes
00:20:46
It's so much faster, isn't it?
00:20:48
That's right
00:20:49
What changes have you make
00:20:51
to speed up the process?
00:20:54
Let me explain to you
00:20:56
the concept of a 3D printer
00:20:57
3D means the X, Y, and Z axes. Right
00:21:00
The extruder has to move in all three dimensions
00:21:02
to build the product in layers
00:21:05
When we were designing this equipment
00:21:07
we thought
00:21:08
maybe we could speed up the printing process
00:21:10
So we came up with a new extruder
00:21:13
What is this?
00:21:14
Its width is the same as that of a print
00:21:18
During the printing process
00:21:20
it simply takes one travel move
00:21:24
to finish one print
00:21:25
Unlike regular printers
00:21:26
it doesn't have to travel
00:21:28
along the Y axis
00:21:30
It doesn't need to travel back and forth
00:21:31
Exactly. It doesn't need to travel back and forth
00:21:33
It simply needs to travel along the X axis
00:21:35
to finish one print
00:21:37
That's why it's quicker
00:21:38
We can dispense with
00:21:40
the movement along the Y axis
00:21:42
In fact, among other movements
00:21:44
the Y axis movement
00:21:45
is most time-consuming
00:21:48
Therefore
00:21:49
our printer here is much faster than the others
00:21:53
Mr. Lu has also said
00:21:54
while improving the print speed
00:21:56
the quality also needs to be taken into consideration
00:21:58
So basically, the ways to develop
00:22:00
a well-thought-out 3D printer
00:22:03
are what engineers need to work hard on
00:22:06
This is a model figure
00:22:09
we have just dug from the pot
00:22:11
A mummy.Yes
00:22:12
It looks exactly like
00:22:14
what's found in an archaeological dig
00:22:17
Yes.You have to wipe off
00:22:19
any remaining powder
00:22:21
Mr. Lu, as a professional engineer
00:22:24
are you optimistic about Taiwan's future
00:22:28
in 3D printing?
00:22:29
In my view
00:22:31
as long as people are willing to commit to this sector
00:22:34
Taiwan is suitable
00:22:36
for developing 3D printers
00:22:39
We already have talented people
00:22:41
Where there is demand
00:22:43
there will be supply
00:22:45
Over the past few years, people might think that
00:22:48
3D printing was beginning to wane
00:22:50
But they just didn't realize
00:22:52
how and where 3D printer could be applied
00:22:54
Demands will only rise
00:22:56
when people understand
00:22:58
the way this technology operates
00:23:02
People didn't realize before
00:23:03
Gradually
00:23:05
after we have done some promotional work
00:23:07
I guess a lot of students will be able to explain
00:23:09
what and how a 3D printer can do
00:23:12
In Taiwan, or the whole world
00:23:14
this technology
00:23:16
will gradually be popularized
00:23:18
and used in people's homes
00:23:21
Hopefully, in the not too distant future
00:23:22
more people will get to know
00:23:24
the advantages of 3D printing
00:23:25
and make use of them
00:23:27
to lead us to a newer and more convenient world

Etiquetas

3D打印
增材制造
减材制造
应用领域
材料选择
成本效益
未来发展
技术趋势
激光烧结
医疗器械

機細胞也能3D列印奧秘在「這裡」！【列印未來進行式】＿EP02

Resumen

Para llevar

Cronología

Mapa mental

Vídeo de preguntas y respuestas

什么是3D打印？

3D打印是一种增材制造技术，通过逐层堆叠材料来形成产品。

3D打印与传统制造有何不同？

3D打印是增材制造，而传统制造（如CNC）是减材制造，后者通过去除不必要的部分来形成产品。

3D打印的主要优势是什么？

3D打印在小批量多样化生产中展现出成本效益和时间优势。

3D打印适用于哪些领域？

3D打印可应用于食品、汽车配件、医疗器械、艺术品等多个领域。

3D打印的材料有哪些？

3D打印可使用塑料、金属、陶瓷等多种材料。

未来3D打印技术的发展前景如何？

随着技术的进步与应用场景的拓展，3D打印将在家庭和工业中得到更广泛的普及。

Ver más resúmenes de vídeos

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Resumen diario

Legal

機細胞也能3D列印 奧秘在「這裡」！【列印未來進行式】＿EP02

Resumen

Para llevar

Cronología

Mapa mental

Vídeo de preguntas y respuestas

什么是3D打印？

3D打印是一种增材制造技术，通过逐层堆叠材料来形成产品。

3D打印与传统制造有何不同？

3D打印是增材制造，而传统制造（如CNC）是减材制造，后者通过去除不必要的部分来形成产品。

3D打印的主要优势是什么？

3D打印在小批量多样化生产中展现出成本效益和时间优势。

3D打印适用于哪些领域？

3D打印可应用于食品、汽车配件、医疗器械、艺术品等多个领域。

3D打印的材料有哪些？

3D打印可使用塑料、金属、陶瓷等多种材料。

未来3D打印技术的发展前景如何？

随着技术的进步与应用场景的拓展，3D打印将在家庭和工业中得到更广泛的普及。

Ver más resúmenes de vídeos

機細胞也能3D列印奧秘在「這裡」！【列印未來進行式】＿EP02