Tag: Nylon

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What Happens if 3D Printing Filament Gets Wet? | PLA, ABS, PETG, Nylon, Wood

Using a 3D printer is expensive, so keeping all of your equipment clean and dry is very important. Filaments like PLA, ABS, PETG, Nylon, and Wood need to be treated with care and stored well to prevent them from getting wet.

When 3D printing filament gets wet, the printing process and the final result get messed up. When the filament comes out of the tip, there can be inconsistencies like bubbling and stringiness. These are indications that the filament is too wet, and the filament needs to be dried before being used.

If 3D printing filament is wet, then all you need to do is find a drying method that works for your type of filament and dry it. Then, you just have to remember to properly store your filament so that it doesn’t get wet again.

How to Know if Filament Is Wet?

To test if the filament is wet, run the machine and look at the nozzle where the filament comes out. If you see it has bubbles and pockets of air in it, then it is wet and won’t perform well. If you don’t see that, you can also turn off the machine after it has warmed up and see if the filament stops coming out, or if strings are oozing out of the nozzle. If you see the thin strands of string, then the filament is wet.

If you do not see any of those issues after trying those tests, then your filament is not wet and should perform well. If it still doesn’t perform well, then there is a very small amount of moisture in the filament and you can decide whether you want to store it better or dry it out.

Drying filament takes about 4-6 hours, but if your filament has only a small amount of moisture, then you might want to try 1-2 hours at first. That way you do not over-dry the filament. Overdrying your filament can cause the plastic to become brittle and it won’t stick to itself well. So, be sure to exercise caution when drying your filament.

When drying out filament, some methods work well, but always use caution. Having wet filament is bad, but having filament that is too dry is bad too. You don’t want the plastic to become brittle, and we want to avoid stringiness. Heat could also melt or warp some types of filament, so be aware of that.

Why Does Filament Get Wet?

Filament gets wet because of the way the plastic is formed. The structure of the molecules and the materials used in filament attract the moisture out of the air and can cause the plastic to underperform.

If your filament is wet, it can also be bad for your 3D printer. It can get jammed with melted filament plastic, and it will give you bad products.

Some people never have wet filament, and others always worry about their filament getting wet. This is because of location. Some places have more humidity and moisture in the air than others. So, depending on the weather in your location, you may or may not need to be more careful about how you store your filament.

Wet filament makes 3D printing a mess. The plastic comes out with air bubbles and can mess up the straight and clean lines that 3D printing makes. It can also cause the 3D printer to have strings. If you have used a hot glue gun, then you should know how it looks after you lay out the glue and pull the gun away, forming a string. When you pull away from the gun, the string gets longer and thinner. This can happen to filament as well when it is wet.

Making sure your filament is properly stored is the best way to prevent moisture from ruining your filament. But if your spool does get wet and doesn’t work properly, then there are some methods you can use to dry it out again. That way, you can keep using your spool of filament and you don’t have to buy a new one.

How to Dry Filament

To dry filament, look at the different processes that work for the type of filament you have. Decide on a method you can perform on your filament type and follow the instructions. Be sure to read the directions or watch a video before performing any drying process on your filament so that you know what you should be doing. Plus, this way you can avoid mistakes.

When drying filament, just be careful that your temperatures are not too high. The charts listed below give you the right temperatures for drying different filaments. When the temperature is too high, it will melt the strands of filament together, which can ruin it.

Different filaments draw different levels of moisture out of the air, which makes some filaments wetter than others. Similarly, some filaments can dry faster than others. So, when you dry your filament, be sure you check up on it to ensure that it doesn’t get ruined.

The methods below are the most commonly used, and they offer great results. You can dry your filament at home, or you can buy a filament dryer. No matter the method, they all are proven to work, and there are numerous videos online of people testing them. So, before you try a method out, read below and maybe watch a video so that you are prepared and know what to do.

Oven Method

gray gas range oven in kitchen
Photo by PhotoMIX Company on Pexels.com
PLA104-112 degrees Fahrenheit
ABS176 degrees Fahrenheit
PETG160-180 degrees Fahrenheit
Nylon176 degrees Fahrenheit
Wood95-160 degrees Fahrenheit
Oven Temperature for Filament

The oven method works for drying PLA, ABS, PETG, Wood, and Nylon. You simply heat the oven to the directed temperature and let it dry for 4-6 hours.

Be sure to heat your oven fully before putting in the filament. Placing the plastic in too early can melt the strands together. Also, to make sure you aren’t going to melt the plastic, you can leave the end of the strand pointing up, and if it falls then it is too hot in the oven.

You can dry the filament in sessions too. If keeping your oven on for too long is hard to do, you can dry the plastic in 1-hour increments until you reach a total of 4-6 hours. For some people, this works better with their schedule.

Filament Dryer Method

A filament dryer is a product that is specifically made for drying out filament. This method should have a setting for drying any type of filament. But, before you buy, double-check that it is compatible with the type of filament you have.

If you want to purchase this tool, you can look at the place you got your 3D printer and look for a filament dryer. This is not necessary, but people like it because they can trust it and it is always on hand.

To use it, all you have to do is follow the setup instructions that come with the product. Then use the instructions to turn on the machine and set up your spool of filament in it. All you have to do after following setup instructions is to let the machine work. It is super easy, so if you have the budget for it, you might consider getting yourself a filament dryer.

People tend to go for this option last. If there are cheaper at-home ways to dry filament, then people tend to try those first. But some people do not trust themselves or their at-home equipment to do the job right, so buying the filament dryer is no problem. Depending on you and your likings, you can choose whether to go for this product or not.

Food Dehydrator Method

If you have a food dehydrator at home, this method is easy to use. You can also use this method for any type of filaments such as PLA, ABS, PETG, Nylon, and Wood. Dehydrators operate at lower heating temperatures to slowly dry out food like fruits. But, you can use it to dry out your filament as well.

PLA104-112 degrees Fahrenheit
ABS176 degrees Fahrenheit
PETG160-180 degrees Fahrenheit
Nylon176 degrees Fahrenheit
Wood95-160 degrees Fahrenheit
Food Dehydrator Temperature for Filament

For this method, make sure you can fit your filament spool in the dehydrator. Then, preheat your dehydrator to the desired temperature according to the chart on the right. Once the dehydrator is fully heated, you can place your spool of filament in. Let the machine run for 4-6 hours, and to be safe, check on the filament every hour.

Checking on the filament hourly can help you see the progress and you will be able to spot if the filament is melting together or not. Because it can’t use high temperatures, the dehydrator shouldn’t be able to melt the filament.

If you notice that any of these drying methods start to melt your filament, then pull out the spool. After you have taken out the filament, you can try the method over again, but be sure to make adjustments to the process you used. If you used your oven, chances are that the oven did not keep the heat at the right temperature. So, make your adjustments or try a new method.

How to Prevent Filament from Getting Wet?

Filament gets wet depending on the air in different locations. If you live in a humid place, or if it gets humid over the summer, then you have to cover your filament. If you live in a dry place, you should cover your filament, but leaving it out on a table for a while shouldn’t harm it.

You should take into account where you live, and see how it affects your filament. Depending on how wet the air is where you live, you may need stronger containers instead of simply using a plastic bag.

If you have never noticed a problem with your filament, then keeping it in a plastic bag or plastic storage bin should work fine for you. That way you can keep all moisture out, keep all your spools in the same spot, and make sure that your workspace stays organized and clean.

Filament needs a dry place to protect it against moisture. So, at least having a plastic storage bin or a plastic sealable bag for it is a good place to start. But more importantly, the place where you store the filament should be where there is little moisture. For example, a bathroom, kitchen, or laundry room would not be good for storing filament. Instead, try using a storage closet or place close to where your 3D printer is. That way it is away from moisture and it is close to the 3D printer.

If you have a craft room, that would be an amazing place for storing filament. Just be sure to keep items like room humidifiers away from where your filament is so that you can keep it dry. As long as your filament is covered and stored away from potential moisture, then it should be fine. Over time the filament can draw moisture out of the air, but it shouldn’t harm the way the plastic comes out of the 3D printer.

If you need a stronger barrier to protect your filament against moisture, then you can consider other methods for storing it. Some airtight containers and bags can suck the air out of the container you have for the filament. Depending on how humid your area is, you may or may not need a secure airtight place to keep your filament.

The main tip you can use to prevent your filament from absorbing moisture from the air is to always put it away after using it. Keeping the spool out in the open is what causes the plastic to take in moisture. So, if you at least put your filament away in a simple plastic bag or container, then you will be protecting it and making sure it lasts a long time.

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Does 3D Filament Go Bad? | Shelf Life of Filament

3D filament is expensive, and when we buy it, we tend to hope it will last us a long time. But, as with many things, this simply might not be the case.

3D printing filaments will go bad, especially if they are exposed to humidity. They can last anywhere from two months to two years depending on the ambient humidity. The best way to prevent filaments from going bad is to store them in an airtight sealed container with a desiccant or silica.

So, what do you do with all of those filaments you have lying around on your desk, and how do you protect them from water damage? Also, what is it that makes filaments vulnerable to humidity in the first place, and are the things you make with them vulnerable as well? We’ll cover all of this and more below!

The Life of a Filament

Many filaments have a structure that tends to absorb water when put in contact with it. Even if they absorb even a tiny bit at a time, that will add up to cause not only a slight swelling in the filament itself (which can damage its nozzle) but also some structural damage that can cause the builds that use the damaged filament to become brittle or lose strength. This property of being absorbent is known as being hygroscopic.

Several different kinds of filament are commonly used in the United States. Most of these can go bad when exposed to humidity. Here is a list (that is by no means comprehensive) of the different ways that a filament can go bad.

PLA

The only way to tell that PLA has been damaged is to start printing with it. If it damages the nozzle of your printer, creates a print with dark splotches on it, or makes a weak product, it might be expired. Water-damaged filaments can create bubbles, air pockets, and stringy buildup, none of which are ideal for 3D printing.

You can prevent your PLA from going bad by storing it in a cool, dry place or an airtight container with a desiccant or silica. This will prevent your filament from coming into contact with water entirely, making it less likely to sustain any kind of water damage.

A PLA filament can spend about two months in a hot humid spot or two years in a cool dark one before it goes bad.

PETG

PETG is similar to PLA, but it’s designed to be less sensitive to water. Because of this, it can survive for around a year before receiving any sort of damage from it. It will still end up getting destroyed by humidity, however, and so correct storage is very important if you plan to keep the filament for longer than that.

ABS

ABS is another fairly common kind of filament that can easily expire. Unlike PLA however, you might be able to discover that an ABS filament has gone bad because the color has faded. Exposure to moisture causes it to develop hairline fractures which can cause the products to be vulnerable to mold or bacteria, which will smell bad and potentially cause structural damage.

That being said, ABS can last for over a decade with the proper storage, especially if you dry it out before using it. Just watch out for discoloration and bad odors.

PVA

PVA is actually soluble in water, which means that humidity can destroy it beyond repair. PVA needs to be stored in a place where water can’t get to it, or else it will go bad quite quickly. Other filament types can usually be dried, but water is a death sentence for PVA.

Nylon, Polycarbonate, and Copolyester

All of these filaments are so hygroscopic that just two days in humid weather is enough for them to be completely ruined. These filaments all need to be treated with extreme care if they are to be used. Proper storage and care will prevent them from receiving moisture damage and will remove the need for them to be dried out before they can be used.

Most filaments are both hygroscopic and biodegradable, which means that they can in fact go bad when they have too much moisture. They can even break down over time if you leave them out for too long.

But if filaments can degrade, then what about the things we make with them?

Can 3D Printed Objects Go Bad?

Focusing on PLA, the answer is technically yes. Because PLA is made from biodegradable materials, it will break down over time and eventually decompose.

When stored at room temperature in a relatively dry place, it will take 15 years for the object to show any signs of decay. In fact, unless it’s left out in the sun, dunked underwater, or buried deep underground, it’s very unlikely to start breaking down before that time. It takes such a long time to decay that there’s really no need to worry about it.

The only exceptions would come if you choose to bury your print in the dirt and heat it up to about 140˚ Fahrenheit (60˚ Celsius) at which point it will start to degrade extremely quickly, showing signs of cracking and tearing after only six months.

Of course, there’s no way that anyone would do that on accident, so you won’t need to worry about PLA projects wearing down when they are used for regular circumstances.

While sunlight won’t make the object decay much faster, it will cause it to lose some of its color, especially if you’ve applied paint to it. However, this can easily be fixed with a quick touch-up to the paint job, and it won’t damage the structural integrity of the object.

That being said, the warmth from the sunlight can speed up the process of decay, so if you like playing with your 3D printed projects outside, you might want to keep that in mind.

Most 3D printing filaments are biodegradable, although the time that each one takes to break down might be quite different. Some will last longer than others.

But fifteen years is a long enough time that you’ll probably be able to replace the object long before it ever starts to be a problem. Given proper maintenance and care, you can probably keep them for even longer than that. As long as they’re in a relatively cool, dry place, they’ll be fine.

As a sidenote, PLA is actually recyclable under the right circumstances. Of course, you’ll need to clean any dirt and grime off of the print thoroughly and make sure that it’s made of 100% PLA. You can even recycle it at home to use for your next project if you really want to! You’ll need a specialized recycle extruder for your printer, but otherwise, you can do it yourself with only the printer and a shredder to break the print down into tiny parts.

Use the shredder to shred the print into 0.7 cm strips. Then, set up the recycled filament on your printer. You can now load the printer with the strips, which will come out as a filament thread. You may have a way to spool this thread up, but if not, you’ll just want to make sure that it coils itself as it hits the ground.

You can do this by pushing the new filament to one side as it hits the ground. This should help it coil pretty nicely if you do it right.

When you have it coiling the way you want it to, you can start fine-tuning to get the process. You’ll be recycling old PLA in no time, and that should save you quite a bit of money.

Can You Restore Bad Filaments?

Most filaments will end up going bad because they’ve taken on a large amount of water. This is actually a solvable problem much of the time. All you have to do is dry out the filament and it should be usable again. But how do you do that?

The best way to dry your filaments is with a filament dryer. Filament dryers are easy to use and reliable, as they have specific settings for each of the different filaments that you might need to dry. All you need to do is put the spool of filament into the dryer, pick the appropriate setting, and wait for it to dry!

The next best choice is a food dehydrator. Food dehydrators just happen to do the exact thing that we’re trying to do here, which is getting all of the water out of something that is wet. For PLA, run the dehydrator at 45˚ Celsius (112˚ Fahrenheit). For ABS, you’d want it to be much hotter, around 80˚ Celsius, or 176˚ Fahrenheit.

Finally, you could use an oven to dry out the old filaments, but ovens are rather unreliable at these sorts of things as they often aren’t exactly the temperature they say they’ll be. If the oven isn’t hot enough, then the filament won’t get dry. If it’s too hot, the filament can be permanently damaged. That makes ovens a fairly risky choice for filament restoration.

You can also sometimes dry out a filament by applying desiccators, but will only work if 1) the desiccator is already dryer than the filament and 2) you use a lot of desiccators.

Desiccators work by being so dry and so absorbant that water flows into them, but it turns out that if there’s enough water in an object, it will actually attract water better than the desiccator will!

Because of this, and the fact that even the strongest desiccator can only absorb up to 20% of their mass in water, desiccators are usually not especially feasible for use in drying out waterlogged filaments. They’re great preventative measures though, and it’s a good idea to store your filament with some desiccators nearby.

How to Prevent Damage

Of course, it’s usually better to prevent damage from occurring than it is to fix it after it’s already happened. If you don’t have the proper equipment, restoring wet filaments can be a tricky process that’s more trouble than it’s worth. So how do you prevent the need for drying entirely?

The answer is simple: store your filaments in a dry place. No matter what kind of filament you’re using, you can never be too careful about its storage location.

The first step is to find the coolest, dryest part of your home. This might be a basement if you live in a place where there are basements, or it could be a closet or a pantry that doesn’t have any windows and will never see the light of day.

Now that you’ve found your ideal location, you’ll want to move all your filaments there. But they aren’t safe quite yet! Your next step is to find either airtight bags or containers to sequester them away in. Some filaments come in airtight storage bags. If these are reusable, then great! You can keep your filaments in their original bag as long as you still have a silica packet to go with it.

You can also use storage bags as long as you have desiccants and humidity meters to go with them. These are fairly durable, and the desiccants can suck up any excess humidity. All you’ll need to watch out for is dust!

You can even use vacuum bags if you have them. These are great because they prevent any water from getting into the bag and damaging the filament. There can’t be any humidity if there isn’t any air.

Airtight storage boxes can also work well for keeping out the damp if used correctly. They can have quite a high storage capacity, meaning that you don’t have to store all of your filaments separately, which can be nice. You do need to make sure that the container has a sufficient amount of desiccant inside it, however. Even if new air won’t enter the box, there is still air inside the box.

Finally, you could buy a filament storage box. These are actually designed to store filaments, which makes them a perfect choice. Because they’re climate-controlled and perfectly dry inside, your filaments should last for their full shelf life when they’re kept inside.

However, these containers can be kind of pricey, and it might be cheaper to use more DIY methods. It’s up to you, as long as the filaments are stored safely.

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What Are the Disadvantages of 3D Printing? | Pros and Cons

3D printing has become an incredibly popular way to manufacture goods. While it doesn’t seem as though it has been around for long, it is about 40 years old. As it has molded the past, it will continue to shape our future.

3D printing comes with advantages and disadvantages. 3D printing can’t be done with a variety of materials, cannot be used to make large quantities, and may lead to a reduction of jobs. Although, 3D printing allows a designer much more freedom and takes far less time, and is more eco-friendly.

Together with both the pros and the cons, 3D printing is still used widely and will continue to grow in use as technology progresses. It is important when you first start 3D printing to understand the risks as well as what good it can do for your business or your life. Depending on your circumstances and the circumstances of the world, you may very well see the pros and cons differently from time to time.

3D Printing Benefits and Drawbacks

The earliest 3D Printing was done in the 1980s, but it has progressed a lot and expanded in each reach since then. Nowadays we have the capacity to build 3D houses and even print in space. So, what are the great parts of 3D printing, and what are some not-so-great parts?

ProsCons
Less Waste Limited Materials
New ShapesSize Restrictions
Fast & Effective Copyright Issues
Light Parts Large Scale Slowness
Quick ProcessPost Processing Work Load
Portable Reduced Employment
Freedom of DesignCost
Accessible Part Structure

Let’s take a closer look at each of these pros and cons so that we can see if 3D printing suits our needs and the needs of others. Each of these will help you determine which source of manufacturing is best for you! It will also just give you a small glimpse into what 3D printing looks like and how it has begun to function in our society not only as a way of manufacturing products for sale but also as a hobby and at-home machine that helps individuals and companies bring their dreams to life!

Pros

As we see from the table above, there are a variety of really great outcomes that 3D printing has to offer. Today it has become cutting-edge technology that has helped to manufacture things that were impossible to do before. Consider these advantages and disadvantages to decide if 3D printing is right for you. There are a variety of options out there if 3D printing does not work best for you.

  • Less Waste – In other forms of manufacturing, they will have a large piece of material and cut out the shape of what they want to create, leaving all the excess as waste that most of the time can not be recycled. 3D printing does not take away from the material but is an additive process, meaning that things are added to create the shape, and only minimal shaving off and sanding is required. Plus, the material that is used is normally recyclable and is often made of recycled material itself. This makes this process better for the designer, but also for the environment.
  • More Shapes – All of a sudden we can create things that we could not create before! We can now make more intricate designs and use more complex shapes because of 3D printing. 3D printing frees up quite a few things to ensure we are able to create anything we desire.
  • Fast & Effective – For simple, basic, or even slightly more detailed items, 3D printing an object can be done in a matter of a few hours. This is much faster than other manufacturing techniques, such as molds or machined parts. It is quite fast for the quality product it creates. In addition to this, you can also print on demand with 3D printers, rather than buying your manufactured product in bulk and keeping up a huge supply for a year while it sits in a warehouse and gets dusty. Instead, you can print stuff right when you need it. This way it saves you time, money, storage fees, and heartache from lost products. It is fast not only in its creation, but also in its ability to make this more smooth and quick in retail.
  • Lighter Parts – Another really great advantage of 3D printing is that you can create parts for cars and other similar things that are much lighter than the metal parts we use now. This adds to fuel efficiency and helps to create a way for us to move forward. While it is plastic and lightweight, it still remains strong and capable. In the creation process, elements can be added to make a part heat resistant, have greater strength, or even repel water.
  • Quick Process – Because putting your design in the 3D printer is only part of the process, it becomes easier to be creating one design while another is in a different stage, and therefore it allows more freedom in the use of your time. Once a machine has started working on a design, it can be run by a single person, and that one person can be running multiple machines at once so that things are happening quickly and effectively.
  • Portable – Have you ever wanted to make something away from home? Or away from work? 3D printing makes this possible. Each 3D printer is different in size and shape, and while there are larger printers that can be used on an industrial level, there are also small, portable ones that you can take with you anywhere you go. This allows you the freedom of creating and printing things where ever you may be.
  • Freedom of Design – Things, that before were not possible, have become possible with 3D printing. You can now create extremely complex geometric designs with just the push of a button. Normally, items like this cannot be made, and so 3D printing has opened up a new door for creators and inventors to create things that before would have been impossible to make.
  • Accessible – Because this is a fairly new industry, and because it has become so popular, it has also become very accessible. If you need something 3D printed and you don’t have a printer yourself, many places will make it for you. It also is something that is around in most places locally, meaning that outsources the creation of products to another country may be more expensive than to just create them where you are and not worry about shipping them overseas.

Cons

While all these advantages are good, we must keep in mind that this is still a fairly new industry. It has been around for 40 years, but it has made most of its progress only recently. It allows you to do great things, but may also lead to small problems in the economy and in the manufacture of items that a person plans to sell or use. Carefully review each and see which will be most detrimental to your situation.

  • Limited Materials – Thus far, only a limited amount of materials have been able to be used. They used a limited selection of plastics and very limited types of metal. The materials must be able to be temperature controlled well so that they can be used, and there are not many materials that fit the criteria needed to ensure a well-working item.
  • Size Restrictions – The chamber within a 3D printer where the creation actually happens is actually relativity small. There is not enough room in there to create something that is larger in size. Even larger printers that are industrial grade do not have enough space for some items, meaning that larger items still must be made using another form of manufacturing, like injection molds. This might change in the future, but for now, 3D prints are small.
  • Copyright Issues – Just as with any new technology or creation, after it has been around for a few years, there begins to be problems with legal issues. It is important that each product created through 3D printing is not copyrighted. It could pose a serious problem if people began to create fake products and advertise them as the real thing, not only taking revenue from the actual product and company, but also overlooking important safety features and rules.
  • Large Scale Speed – While we talked about speed as an advantage, it is also a disadvantage. While 3D printing has made things be able to take place more quickly, it is still not fast enough to create large quantities of any one thing, and after you get to a certain point, it is more cost-effective and timely to use another form of manufacturing that can keep up with a large quantity demand. And yes, most prints only take a few hours, but that’s only one print, and if you are making a lot of an item, then those hours add up really fast.
  • Post Processing – After the item is created, it isn’t the end. Prints don’t necessarily come out as a finished product as you might have hoped, and most of the time 3D printing is used to create parts that must later be assembled and finished. It also means that you may have to sand and add other details that were impossible for the machine to add.
  • Reduced Employment – A lot of new technological advances mess with the economy and working-class people. 3D printing is not exempt from this. The more we are able to use this technology, the fewer people will be needed to manufacture products. A group of 30 people can be replaced by one person to run 30 machines. This is not helpful to the economy and the working class.
  • Cost – A 3D printing machine is actually pretty pricey when compared to other manufacturing machines. They cost anywhere from $10,000 to $100,000. It is a considerable investment that may take some time to pay off. Plus each is manufactured to the needs of the buyer, so it is important to understand that it may take weeks to actually get the product once you have bought it. Materials also have a large price tag, and so the creation of things adds to the cost each time you want to use them.
  • Part Structure – Another problem may be that parts which are created with 3D printers are strong, but sometimes not strong enough to pass strength tests. This will all depend on what you are creating and what you are using it for. Only for certain products will strength tests be required or relevant.

“Additive manufacturing allows parts to get printed in layers that adhere to each other during the creation process. That means these items can sometimes separate or break under certain stress levels or with part orientation.”

source

3D printing has opened a whole new world of opportunities and experiences. It is really still only in the beginning stages and is sure to continue to progress and be refined as time goes on. Through a careful analysis of its pros and cons, we can find out that 3D printing may not be the best manufacturing for all things, but for some, it is the best option! It all depends on what is being created and what components it needs to function. It is also important to consider the cost to create things; in some instances, 3D printing will be the cheapest option, while at other times it will be different than what you would expect. It is a new technology and we must learn to progress with it!

As we see, there are a whole plethora of advantages and disadvantages. We have chosen to show you both sides so that you may see what could potentially go wrong if you were to enter into that system of manufacturing. It is phenomenal technology that will continue to enhance life at a creation level, but as with all things, it will always have its downsides that we will have to work through. It is just a matter of deciding which is more important to you, and how you can make it work as you create and print.