Difference between revisions of "FAQs"
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The following all apply to all versions of Repetrel. | The following all apply to all versions of Repetrel. | ||
== Training == | == Training == | ||
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=== Why is there mandatory training? === | === Why is there mandatory training? === | ||
Here at Hyrel, we believe that no training equals a bad printing experience. We are NOT in business to work hard and then have our customers have a bad experience. We include up to five hours of online training (via Skype and | Here at Hyrel, we believe that no training equals a bad printing experience. We are NOT in business to work hard and then have our customers have a bad experience. We include up to five hours of online training (via Skype and AnyDesk) to ensure that you can get reasonable, reliable results out of your printer. All of our models are compatible with this training. | ||
It is our policy to only sell a printer after we have talked to the customer about their application; the reason for this is that 3D printing is still quite new to the world, and many people have inaccurate ideas of what a printer can do and what it takes to make a good part. We have no interest in selling a printer to a person, only to have them find out it will not work for them. Our mission is to create and sell print systems to people that will use them and find great satisfaction in being our customers. | It is our policy to only sell a printer after we have talked to the customer about their application; the reason for this is that 3D printing is still quite new to the world, and many people have inaccurate ideas of what a printer can do and what it takes to make a good part. We have no interest in selling a printer to a person, only to have them find out it will not work for them. Our mission is to create and sell print systems to people that will use them and find great satisfaction in being our customers. | ||
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We have had great experiences with those who have taken this training, as it gives them each a better idea of the printer and its capabilities. Likewise, we have had some bad experiences with a couple of customers who refused the training, and then were unhappy with the product. We believe that our printer is perfect for many customers, but not all customers. Until you have some idea of how it operates, you have no actual first-hand information to make a good decision. And we want our printers to go to people who will use them to do things other printers cannot do. | We have had great experiences with those who have taken this training, as it gives them each a better idea of the printer and its capabilities. Likewise, we have had some bad experiences with a couple of customers who refused the training, and then were unhappy with the product. We believe that our printer is perfect for many customers, but not all customers. Until you have some idea of how it operates, you have no actual first-hand information to make a good decision. And we want our printers to go to people who will use them to do things other printers cannot do. | ||
We have two training sessions that we do one-on-one, and during that session we use | We have two training sessions that we do one-on-one, and during that session we use AnyDesk and Skype, and we allow you to go through the entire design to print process; you actually control the printer from your computer during this session (via AnyDesk) and see the results (via Skype). | ||
If you have a strong interest, then please contact us to set up a session. | If you have a strong interest, then please contact us to set up a session. | ||
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=== How do you do the training? === | === How do you do the training? === | ||
1. You need to have downloaded and installed skype ( | 1. You need to have downloaded and installed regular skype ( https://www.skype.com/en/get-skype/ ) - not the "for business" version - and registered a free account. You don’t need a camera, but you do need a microphone. Direct link: https://go.skype.com/windows.desktop.download | ||
2. You need to have downloaded and installed | 2. You need to have downloaded and installed AnyDesk ( https://anydesk.com/en ), the free client for non-commercial use. Direct link: https://download.anydesk.com/AnyDesk.exe?_ga=2.89179032.2069644343.1625064922-1555606526.1625064922 | ||
3. You need to be online with skype and | 3. You need to be online with skype and AnyDesk running, and be logged in to your skype account. | ||
This works best for you if you have two displays (or two computers), with the | This works best for you if you have two displays (or two computers), with the AnyDesk window on one and the skype window on the other, although it does work with one screen (just not as well). To start, you can skype me (hy.rel, johns creek) or give me your account ID and I’ll skype you. Then I’ll give you my AnyDesk ID and password, and you will control my computer. | ||
This is a point-to-point lesson; you can have more than one person, but your team should be in the same room together - or some will not be able to see or use AnyDesk. | |||
=== When can you do the training? === | === When can you do the training? === | ||
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Some other times are possible, please let me know what you need. | Some other times are possible, please let me know what you need. | ||
==What do the printers come with?== | |||
All of our currently offered products come with the same: | |||
* Electronics, including Windows TabletPC | |||
* Motion Control components - motors, linear bearings, ball screws, etc. | |||
* Skype/AnyDesk training - STRONGLY ENCOURAGED - SEE NEXT SECTION | |||
* Tramming Kit - Digital Tramming Tool, metric hex drivers, razor blades, spatula, plastic cutters, glass build plate, blue painter's tape, ST-Link programming adapter, tweezers, wire brush, 1 gallon ziplock bag. | |||
== Why do you put a full computer in every printer? == | |||
We decided to include the embedded PC in our printers because it enables us to: | |||
1. Provide online support in real time; and | |||
2. Expand the printer’s capability in the future. | |||
There is NO question that this is valuable. Every time we walk a customer through a new procedure, or help diagnose what is going on with their printer via Team Viewer, we are absolutely sure that having the embedded PC was one of the best ideas we have had. | |||
Some people see our printer and really like the hardware, but of course the price is not cheap, because the components are world class quality. These people may find it hard to afford to purchase a printer with an embedded PC, but the PC and touchscreen add a mere $350 to the actual cost of the printer (we make NO profit from the PC; we offer it because it makes the printer that much better, and easier to grow with). | |||
For them we offer a Printer without a PC; however, we strongly suggest that this ONLY be done by people that are VERY computer literate. We factored in 5 hours of personal training on each printer, because this is a new technology and we found that everyone really benefited from this training. We did NOT factor in any time to help people that were trying to get modern software running on an old PC from the garage and save $350 on their printer, because our time is valuable and an old PC is a complete unknown. | |||
The embedded PC comes configured and tested. This is by far the best way to get a great 3D printing experience. | |||
We have always tried to operate with the mindset of: we treat the customer the way we want to be treated. We would much rather spend our time helping someone learn how to print than spend it trying to debug some unique and unknown computer installation. | |||
==How long will it take to get my printer?== | ==How long will it take to get my printer?== | ||
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# We're here to help you out with anything you need, as best we can. | # We're here to help you out with anything you need, as best we can. | ||
==What Operating Systems | == How do you handle shipping? == | ||
For orders to US addresses, we usually ship FedEx. | |||
For international shipping, we use [https://en.wikipedia.org/wiki/Incoterms#EXW_–_Ex_Works_(named_place_of_delivery) Incoterms EXW] because it's best for the customer to take ownership at our address and make their own arrangements with a shipping company. This is because any complications will be with the receiving country, and the customer will be better suited for dealing with the local agencies (including any language issues) than we would remotely from the states. | |||
==What Operating Systems are Compatible?== | |||
The software which drives the printers works with Windows 10. Our software is not open source. We Program in C#.net, and it is possible to add your own module to our software. We use G-Code to operate our printers. We have over 50 custom codes to allow for the extra features of our printers. The software to run the printers is included with every printer. | |||
== What About Upgrades? == | |||
3D printing is in its infancy, and we envision the software becoming the most valuable component in the future. As consumers, we get very frustrated with continual software upgrade fees - but it does take labor not only to improve the software and firmware, but also to help customers do upgrades. | |||
When you purchase a Hyrel printer, that software has no expiration date - it should always work as it did when it was shipped. But once our team has released v4, we stop working on improving v3, and our efforts go toward making v4 better. | |||
If you've had your printer less than two years, the updates have no cost - and ''that update'' has no expiration date. | |||
However, if your printer is over two years old, there will be a fee to get you a new license for the new version (presently $250 for a v4 license on older printers). This modest fee is not added to generate profit, but rather to offset the cost of helping you get the new version up and running if you should encounter any difficulties. | |||
==What is your warranty policy?== | ==What is your warranty policy?== | ||
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We must stress that there is a vast difference in the quality of materials available online. Using low quality material will result in a bad printing experience. | We must stress that there is a vast difference in the quality of materials available online. Using low quality material will result in a bad printing experience. | ||
== Can we print with your material? == | |||
Probably. Please tell me: | |||
What form it is in at room temperature (powder, granules, filament, gel, etc)? | |||
Do you need the environment or build surface at a certain temperature? | |||
# For Filaments: | |||
## At what temperature will it be printed? | |||
## Is it 1.75mm or 3mm filament? | |||
# For liquids, gels, granules or powders: | |||
## At what temperature will it be deposited? | |||
### Is it homogeneous or pre-mixed, or do we need to mix it as we dispense? | |||
### If mixed as dispensed, at static or dynamic ratios? | |||
## How does it harden or cure (by cooling, by heating, with humidity, with UV light (specify wavelength))? | |||
## Is it photosensitive? Energetic? Caustic? Any special handling, safety or ventilation requirements? | |||
## What viscosity is it during deposition? | |||
== Unheated (or Chilled) Reservoir Printing == | === Unheated (or Chilled) Reservoir Printing === | ||
Unheated (or Chilled) Reservoir Printing (or "Cold Flow") refers to printing with somewhat fluid materials at room temperature. We offer the following Unheated Reservoir Printing heads, with or without UV crosslinking: | Unheated (or Chilled) Reservoir Printing (or "Cold Flow") refers to printing with somewhat fluid materials at room temperature. We offer the following Unheated Reservoir Printing heads, with or without UV crosslinking: | ||
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Heated Reservoir Printing (or "Warm Flow") refers to printing with material which becomes somewhat fluid when heated to temperatures of 200°C or less. We offer the following Warm Flow heads, with or without UV crosslinking: | Heated Reservoir Printing (or "Warm Flow") refers to printing with material which becomes somewhat fluid when heated to temperatures of 200°C or less. We offer the following Warm Flow heads, with or without UV crosslinking: | ||
* The HSD-30 (BD) prints with low viscosity pastes, gels and emulsifiables from sterile, disposable, luer lock compatible plastic syringes at temperatures up to 50°C. | * The HSD-30 (BD) prints with low viscosity pastes, gels and emulsifiables from sterile, disposable, luer lock compatible plastic syringes at temperatures up to 50°C. | ||
* The HSD-10 (Ardes) prints with low viscosity pastes, gels and emulsifiables from a reusable, luer lock compatible polyamide syringes at temperatures up to | * The HSD-10 (Ardes) prints with low viscosity pastes, gels and emulsifiables from a reusable, luer lock compatible polyamide syringes at temperatures up to 75°C. | ||
* The VOL prints with pastes, gels, clays and emulsifiables at up to 90°C. | * The VOL prints with pastes, gels, clays and emulsifiables at up to 90°C. | ||
* The KR2 prints with pastes, gels, clays and emulsifiables at up to 180°C (200°C special orders). | * The KR2 prints with pastes, gels, clays and emulsifiables at up to 180°C (200°C special orders). | ||
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* The DBK Drill Bit Kit includes a variety of drilling and milling heads for the ST1 Spindle Tool. | * The DBK Drill Bit Kit includes a variety of drilling and milling heads for the ST1 Spindle Tool. | ||
== | ===What's the smallest amount?=== | ||
I am occasionally asked "What is the smallest volume that you can discretely deposit?", which is a troublesome question, and implies that mechanical performance of the head is the only consideration '''- it is NOT!''' | |||
The smallest possible displacement is one microstep of the motor. The 30cc syringe head (for example) has a flow calculation of 26.8 pulses (microsteps on the dispensing motor) per microliter. So, each single pulse would displace, either positively (unloading) or negatively (loading), 0.0373 microliters, or 373 nanoliters '''- IN THEORY, and without that many significant digits.''' | |||
This is | '''IN PRACTICE, however,''' attempts at very tiny movements like this are unreliable, as such a single tiny move might not even be enough to take up the tension between multiple matings of the teeth of gears and belts during a direction change. This number is accurate when averaged out over the course of multiple printing movements, but it is unrealistic to expect this equipment to provide this level of accuracy for single actions. | ||
I have confidence in single, isolated displacement actions of as little as one microliter. Smaller displacement movements are absolutely possible, but you will have to perform some tests to determine the practical limit for your use, with your material - but I can help you with writing gcode for tests. | |||
== | ==Why shouldn't I use low-temp material in a high-temp head?== | ||
We design each head for a specific group of materials - rigidness, temperature range, and filament size. | |||
The low-temperature filament heads (*-250, which can be used at up to 250C for years, or up to 265C with a reduced lifetime) are designed to operate at 250C or less. This allows us to use certain materials in certain areas without issues. | |||
The high-temperature filament heads (*-450), which can be used between 280C and 450C) are designed to operate at up to 450C. This consideration prevents us from using certain materials in certain areas without issue. | |||
Short story medium, the very-low-friction PTFE tubing can come all the way to the heated nozzle in the *-250 heads, but it must be isolated and protected from the potentially 450C areas of the *450 heads. | |||
===But, but but...=== | |||
Can I run PLA through the *-450 heads? <span style="color: red;">''Sure. Until you can't. Which won't be very long. Trust us.'' | |||
Is it a good idea? <span style="color: red;">'''''No.''''' | |||
Why? <span style="color: red;">''Because the stainless steel delivery pathway is not as low-friction as PTFE, and YOU WILL GET CLOGS.'' | |||
Can I do what I like with the equipment once I purchase it? <span style="color: red;">''Of course.'' | |||
Will Hyrel warranty *-450 heads with *-250-type material clogged in it? <span style="color: red;">'''''No.''''' | |||
Why? <span style="color: red;">''Because we told you that these heads are designed and intended for use with filaments in the 280-450C range.'' | |||
<span style="color: red;">'''Just because you can do something does not make it a good idea.''' | |||
And remember, our MK2-250 is for FLEXIBLE filaments (TPE and TPU filaments like ninjaflex), and NOT for PLA or ABS. | |||
Let's reproduce most of the table from the [[Filament Heads]] page; hopefully this will clear up any confusion: | |||
[[ | {| border="1" class="wikitable" style="width: 85%;" | ||
|+ Filament Head Properties | |||
! style="width: 10%;" | Head | |||
! style="width: 10%;" | Min Temp | |||
! style="width: 10%;" | Max Temp | |||
! style="width: 10%;" | Filament Type | |||
! style="width: 10%;" | Filament <br> Size <br> in mm | |||
! style="width: 10%;" | Nozzle <br> Type | |||
! style="width: 10%;" | Nozzle Sizes <br> in mm | |||
! style="width: 15%;" | Recommended For | |||
! style="width: 15%;" | Description | |||
|- | |||
! [[MK1-250]] | |||
| 150°C | |||
| 250°C<br>* 265°C | |||
| Standard | |||
| 1.75 <br> +/- <br> 0.15 | |||
| Hyrel<br>Special | |||
| .35, .50, .75, 1.0 | |||
| ABS, HIPS, LayBrick, LayWood, Nylon, PC, PET, PETG, PETT, PLA, PP, PVA, T-Glase | |||
| Standard Torque for 1.75mm Filaments | |||
|- | |||
! [[MK2-250]] <br> ''extra torque'' | |||
| 150°C | |||
| 250°C | |||
| Flexible | |||
| 1.75 <br> +/- <br> 0.15 | |||
| Hyrel<br>Special | |||
| .35, .50, .75, 1.0 | |||
| BendLay, EcoFlex PLA, FilaFlex, Flex45, Ninjaflex, PlastInk Rubber | |||
| High Torque for Flexible 1.75mm Filaments | |||
|- | |||
! [[HT1-250]] <br> ''high torque'' | |||
| 150°C | |||
| 250°C<br>* 265°C | |||
| Standard | |||
| 1.75 <br> +/- <br> 0.15 | |||
| E3D v6<br>compatible | |||
| ''standard <br> options'' | |||
| ABS, HIPS, LayBrick, LayWood, Nylon, PC, PET, PETG, PETT, PLA, PP, PVA, T-Glase | |||
| High Torque for Standard 1.75mm Filaments | |||
|- | |||
! [[HT1-450]] <br> ''high torque'' | |||
| 275°C | |||
| 450°C | |||
| Engineering | |||
| 1.75 <br> +/- <br> 0.15 | |||
| E3D v6 or MK8<br>compatible | |||
| ''standard <br> options'' | |||
| PEEK, PEI (Ultem), PEKK, PPSU | |||
| High Torque for High Temperature 1.75mm Filaments | |||
|- | |||
! [[HT3-250]] <br> ''high torque'' | |||
| 150°C | |||
| 250°C<br>* 265°C | |||
| Standard | |||
| 2.85 <br> +/- <br> 0.15 | |||
| E3D v6<br>compatible<br>3 mm bore | |||
| ''standard <br> options'' | |||
| ABS, HIPS, LayBrick, LayWood, Nylon, PC, PET, PETG, PETT, PLA, PP, PVA, T-Glase | |||
| High Torque for Standard 2.85mm Filaments | |||
|- | |||
! [[HT3-450]] <br> ''high torque'' | |||
| 275°C | |||
| 450°C | |||
| Engineering | |||
| 2.85 <br> +/- <br>0.15 | |||
| E3D v6 or MK8<br>compatible <br> 3 mm bore | |||
| ''standard <br>options'' | |||
| PEEK, PEI (Ultem), PEKK, PPSU | |||
| High Torque for High Temperature 2.85mm Filaments | |||
|- | |||
|} | |||
''* limited use at up to 265°C'' | |||
== Why can't I use an MK1-250 or MK2-250 interchangeably? == | |||
Well, the MK1-250 is designed for normal, rigid filaments like ABS, PLA, PETG, etc. It doesn't work as well with softer, flexible materials like Ninjaflex, Bendlay, Waxes, etc. | |||
And the MK2-250 is designed for soft, flexible materials like Ninjaflex, Bendlay, Waxes, etc. It doesn't work as well with harder, more rigid filaments like ABS, PLA, PETG, etc. | |||
But once you buy it, it's your equipment. You don't HAVE to follow the recommendations of the folks who designed the heads and have been using them for a decade now. And when they get jammed up, we can refurbish them or sell you new ones. | |||
Please refer to the table above. | |||
==How reliable is your printer?== | |||
== | |||
The machine was designed with a 5000 hour MTBF goal, and so far we have no reason to believe that this has not been met. Our parent company has had four axis motion control devices in the field for over 15 years with 100% customer satisfaction. We have been printing on our printers for several months; most of our builds run two to four hours. If the printer is used properly, we recommend a general cleaning and light bearing lubrication once every 200 hours of printing, (this takes about 5 minutes). | |||
== | == My Tablet won't turn on! == | ||
If your tablet has been sitting without being charged, and the battery drains completely, you must charge it to FULL (18+ hours) before it will reboot. Once it has been fully charged, hold down the power button until you see activity on the screen. Be sure to boot in Windows (not Android) mode. Sorry, this is not our design. | |||
== What happens when I click "Print"? == | |||
When you initiate a print job by clicking the print button, the following happens, in this order: | |||
# First, Repetrel sends the info stored on all the heads to the printer. This includes: | |||
## M6 Head Offset settings | |||
## M721 Unprime settings | |||
## M722 Prime settings | |||
## m221 Flow setetings | |||
## M728 Motor Current settings | |||
# Next, Repetrel sends the text of the first gcode file, line by line. | |||
# After this file has all been sent, if there is another gcode file, it will be executed line by line. | |||
Note that we have two buffers in the motion controller; the standard buffer and the emergency buffer. | |||
The initial head settings and the gcode file content is sent to the standard buffer, line by line. | |||
Clicking certain buttons on the screen (Z fine adjust, temperature change, fan speed change, UV/laser strength, etc.) all go to the emergency buffer. | |||
When the motion controller completes any command, it checks the emergency buffer for any priority commands (as listed above). When the emergency buffer is empty, it checks for the next command in the normal buffer. | |||
== | == Will it run on my country's power? == | ||
Our '''ESR, EHR, and 30M models''' use an auto-detecting, auto-switching ATX power supply, so no worries - they will run fine on 110VAC/60Hz or 220VAC/50Hz. But you may need to provide your own power cord (as you would use for a PC), or cut our plug off and connect a matching plug for your outlet. I'm sorry, but we don't stock special plugs for all the countries we ship to. | |||
Please note that our '''Hydra models''' primarily work the same way, although we will have specially configured the hotbed and chamber heater for the input voltage stipulated on the order. Connecting a Hydra configured for 220V will run poorly on 110V. Connecting a Hydra configured for 110V to 220V will let the smoke out - '''don't do it!''' | |||
== How do you print PEEK? == | |||
Our best results with PEEK have been with a 190C bed and 415C head, printing on a powder-coated PEI surface. | |||
== Can I run a different language? == | |||
<span style="color: red;">'''NO - IT WILL BREAK REPETREL!'''</span> You can change the language of repetrel, but if you operate the computer on another language the "," and "." will be wrong and nothing will work. Trust me. |
Latest revision as of 14:01, 25 September 2022
So, some folks have questions about how they can make certain changes in their prints. I will answer the most frequently asked questions below.
The following all apply to all versions of Repetrel.
Training
Why is there mandatory training?
Here at Hyrel, we believe that no training equals a bad printing experience. We are NOT in business to work hard and then have our customers have a bad experience. We include up to five hours of online training (via Skype and AnyDesk) to ensure that you can get reasonable, reliable results out of your printer. All of our models are compatible with this training.
It is our policy to only sell a printer after we have talked to the customer about their application; the reason for this is that 3D printing is still quite new to the world, and many people have inaccurate ideas of what a printer can do and what it takes to make a good part. We have no interest in selling a printer to a person, only to have them find out it will not work for them. Our mission is to create and sell print systems to people that will use them and find great satisfaction in being our customers.
We have had great experiences with those who have taken this training, as it gives them each a better idea of the printer and its capabilities. Likewise, we have had some bad experiences with a couple of customers who refused the training, and then were unhappy with the product. We believe that our printer is perfect for many customers, but not all customers. Until you have some idea of how it operates, you have no actual first-hand information to make a good decision. And we want our printers to go to people who will use them to do things other printers cannot do.
We have two training sessions that we do one-on-one, and during that session we use AnyDesk and Skype, and we allow you to go through the entire design to print process; you actually control the printer from your computer during this session (via AnyDesk) and see the results (via Skype).
If you have a strong interest, then please contact us to set up a session.
How do you do the training?
1. You need to have downloaded and installed regular skype ( https://www.skype.com/en/get-skype/ ) - not the "for business" version - and registered a free account. You don’t need a camera, but you do need a microphone. Direct link: https://go.skype.com/windows.desktop.download
2. You need to have downloaded and installed AnyDesk ( https://anydesk.com/en ), the free client for non-commercial use. Direct link: https://download.anydesk.com/AnyDesk.exe?_ga=2.89179032.2069644343.1625064922-1555606526.1625064922
3. You need to be online with skype and AnyDesk running, and be logged in to your skype account.
This works best for you if you have two displays (or two computers), with the AnyDesk window on one and the skype window on the other, although it does work with one screen (just not as well). To start, you can skype me (hy.rel, johns creek) or give me your account ID and I’ll skype you. Then I’ll give you my AnyDesk ID and password, and you will control my computer.
This is a point-to-point lesson; you can have more than one person, but your team should be in the same room together - or some will not be able to see or use AnyDesk.
When can you do the training?
I am generally available Monday through Friday, 8 am through 4 pm US Eastern time. This is UTC-5 from early March to early November, but UTC-4 from early November to early March.
Some other times are possible, please let me know what you need.
What do the printers come with?
All of our currently offered products come with the same:
- Electronics, including Windows TabletPC
- Motion Control components - motors, linear bearings, ball screws, etc.
- Skype/AnyDesk training - STRONGLY ENCOURAGED - SEE NEXT SECTION
- Tramming Kit - Digital Tramming Tool, metric hex drivers, razor blades, spatula, plastic cutters, glass build plate, blue painter's tape, ST-Link programming adapter, tweezers, wire brush, 1 gallon ziplock bag.
Why do you put a full computer in every printer?
We decided to include the embedded PC in our printers because it enables us to:
1. Provide online support in real time; and
2. Expand the printer’s capability in the future.
There is NO question that this is valuable. Every time we walk a customer through a new procedure, or help diagnose what is going on with their printer via Team Viewer, we are absolutely sure that having the embedded PC was one of the best ideas we have had.
Some people see our printer and really like the hardware, but of course the price is not cheap, because the components are world class quality. These people may find it hard to afford to purchase a printer with an embedded PC, but the PC and touchscreen add a mere $350 to the actual cost of the printer (we make NO profit from the PC; we offer it because it makes the printer that much better, and easier to grow with).
For them we offer a Printer without a PC; however, we strongly suggest that this ONLY be done by people that are VERY computer literate. We factored in 5 hours of personal training on each printer, because this is a new technology and we found that everyone really benefited from this training. We did NOT factor in any time to help people that were trying to get modern software running on an old PC from the garage and save $350 on their printer, because our time is valuable and an old PC is a complete unknown.
The embedded PC comes configured and tested. This is by far the best way to get a great 3D printing experience.
We have always tried to operate with the mindset of: we treat the customer the way we want to be treated. We would much rather spend our time helping someone learn how to print than spend it trying to debug some unique and unknown computer installation.
How long will it take to get my printer?
Orders should be shipping 2-4 weeks ARO. Here is the process:
- We'll send you a Quotation.
- We'll do the first skype/teamviewer9 training session (hardware/software overview, leveling the bed, setting the Z height, and printing in plasticine).
- We'll send a new Quotation if needed.
- If everything is as you want it, we'll send an invoice.
- Upon receipt of payment or a PO, we'll send a Sales Order and customize a unit to your order.
- We'll do the second skype/teamviewer9 training session (creating a CAD model, exporting an STL, healing the STL, slicing the STL (creating gcode), loading the head, and printing in plastic).
- We'll ship your unit and send you tracking information.
- We're available to skype with you to help you get set up and answer any questions you have.
- We're here to help you out with anything you need, as best we can.
How do you handle shipping?
For orders to US addresses, we usually ship FedEx.
For international shipping, we use Incoterms EXW because it's best for the customer to take ownership at our address and make their own arrangements with a shipping company. This is because any complications will be with the receiving country, and the customer will be better suited for dealing with the local agencies (including any language issues) than we would remotely from the states.
What Operating Systems are Compatible?
The software which drives the printers works with Windows 10. Our software is not open source. We Program in C#.net, and it is possible to add your own module to our software. We use G-Code to operate our printers. We have over 50 custom codes to allow for the extra features of our printers. The software to run the printers is included with every printer.
What About Upgrades?
3D printing is in its infancy, and we envision the software becoming the most valuable component in the future. As consumers, we get very frustrated with continual software upgrade fees - but it does take labor not only to improve the software and firmware, but also to help customers do upgrades.
When you purchase a Hyrel printer, that software has no expiration date - it should always work as it did when it was shipped. But once our team has released v4, we stop working on improving v3, and our efforts go toward making v4 better.
If you've had your printer less than two years, the updates have no cost - and that update has no expiration date.
However, if your printer is over two years old, there will be a fee to get you a new license for the new version (presently $250 for a v4 license on older printers). This modest fee is not added to generate profit, but rather to offset the cost of helping you get the new version up and running if you should encounter any difficulties.
What is your warranty policy?
- All core Electronics are covered for 1 (one) year. Installing/flashing any third party firmware onto any of electronics and/or tampering with any of the core electronics immediately voids any and all warranty.
- All Mechanical parts are under warranty for 90 (ninety) days. Operating any HYREL 3D Printer in a very dirty environment will void any and all warranty (for example: a saw mill or sand blasting area).
- Heaters, hot ends and hot beds are covered for 90 (ninety) days, but if there is an obvious manufacturing error, we will not charge for repair.
- Our policy for all parts (not just electronics) is depot repair; you (the customer) only pay shipping on warranty repairs.
What is the print resolution?
The resolution game is played by many manufacturers in the 3D market.
Our Actual position resolution is better than than 5 microns in the x and Y, and 0.5 microns in the Z. The repeatability is about 25 microns in the x and y, and about 10 microns in the Z axis.
The real metric that is not properly asked it the Feature size: can you print an artifact that is say 50 microns reliably? This industry needs new standards, until we have them, we deal with this by actually arranging a skype call with a possible customer, where we make a part and let you inspect it, this way you know the whole story, what it takes to make a part, and what kind of quality you can expect from our printer.
We are NOT interested in selling printers that do not satisfy the needs of our customers, there are plenty of people that like what we have, we want you to find the right technology to meet your needs.
Feel free to arrange for a skype session, and one of us will be happy to walk you through the process.
What is the thickness of the layers?
We support layer heights as small as 25 microns, but only certain materials are working at that thickness; and while it yields a very fine finish, it takes A VERY LONG TIME (can be 12+ hours for small prints).
25 microns is the practical lower limit for ABS, with 250-400 microns being the preferred thickness. 250 microns is the practical lower limit for extrudables (Silicone type materials), with 500 microns being the preferred thickness.
What about large builds?
Many people request large build volumes. Regardless of the brand of printer, this is something that must be approached with open eyes.
1. Dimension Tolerance
FDM technology uses melted plastic at 200+ degrees Celsius, and as the build takes place the plastic will shrink as it cools; stiffer plastics often have trouble holding dimension due to this.
2. Build time
Many people do not realize that making a part that is 200mm cubed would take DAYS, not hours. This fits the needs of many potential users; however it is something that should be considered.
Our printers have travel in excess of all stated dimensions; this is necessary to insure that it is actually practical to make parts the advertised size. Adding extra heads reduces the build volume, however 2 head prints will be very close to the 200x200x200mm stated capacity.
What about materials?
We do not offer proprietary materials; - we do recommend vendors, but you may acquire your ABS, HIPS, PC, PEEK, PET, PLA, PVA, Nylon,, Ninjaflex, Plastink Rubber, T-Glase, Laywood, Laybrick, Clays, including Precious Metal Clays (PMC), HA, Porcelain, PCL, Plasticine, Plah-Doh, Resin, Sugru (Rubber), and RTV Silicone and any other materials from any vendor you wish. Please note that the prices will vary greatly based on variables like quality, quantity, and shipping costs. We find ABS and PLA for between $20 and $100 per kg. We are happy to share our recommended suppliers with you.
We must stress that there is a vast difference in the quality of materials available online. Using low quality material will result in a bad printing experience.
Can we print with your material?
Probably. Please tell me:
What form it is in at room temperature (powder, granules, filament, gel, etc)?
Do you need the environment or build surface at a certain temperature?
- For Filaments:
- At what temperature will it be printed?
- Is it 1.75mm or 3mm filament?
- For liquids, gels, granules or powders:
- At what temperature will it be deposited?
- Is it homogeneous or pre-mixed, or do we need to mix it as we dispense?
- If mixed as dispensed, at static or dynamic ratios?
- How does it harden or cure (by cooling, by heating, with humidity, with UV light (specify wavelength))?
- Is it photosensitive? Energetic? Caustic? Any special handling, safety or ventilation requirements?
- What viscosity is it during deposition?
- At what temperature will it be deposited?
Unheated (or Chilled) Reservoir Printing
Unheated (or Chilled) Reservoir Printing (or "Cold Flow") refers to printing with somewhat fluid materials at room temperature. We offer the following Unheated Reservoir Printing heads, with or without UV crosslinking:
- The EMO prints with pastes, gels, clays and emulsifiables.
- The SDS -5, -10, -30, -60, -60XT, or -150XT prints with low viscosity pastes, gels and emulsifiables from sterile, disposable, luer lock compatible plastic syringes at room temperature.
- The RSD-30 prints with low viscosity pastes, gels and emulsifiables from sterile, disposable, luer lock compatible plastic syringes at temperatures ranging from ambient to 20°C below ambient.
- The DSD-50 prints with two separate components, blending them at a 1:1 ratio through a series of static baffles.
- The SMH-2 prints with two separate components, blending them at a user-defined ratio (or varying ratios) through a series of static baffles.
- The DMH-2 prints with two separate components, blending them at a user-defined ratio (or varying ratios) in an active blending chamber with blades spinning at user-defined speeds.
Heated Reservoir Printing
Heated Reservoir Printing (or "Warm Flow") refers to printing with material which becomes somewhat fluid when heated to temperatures of 200°C or less. We offer the following Warm Flow heads, with or without UV crosslinking:
- The HSD-30 (BD) prints with low viscosity pastes, gels and emulsifiables from sterile, disposable, luer lock compatible plastic syringes at temperatures up to 50°C.
- The HSD-10 (Ardes) prints with low viscosity pastes, gels and emulsifiables from a reusable, luer lock compatible polyamide syringes at temperatures up to 75°C.
- The VOL prints with pastes, gels, clays and emulsifiables at up to 90°C.
- The KR2 prints with pastes, gels, clays and emulsifiables at up to 180°C (200°C special orders).
- The TAM prints with pastes, gels, clays and emulsifiables at up to 270°C.
Filament Printing
Filament printing (or "Hot Flow") refers to printing with 1.75mm thermoplastic filaments. We offer the following Hot Flow heads:
- The MK1-250 prints with typical 1.75mm filaments at up to 250°C.
- The MK1-450 prints with 1.75mm engineering filaments at between 250°C and 450°C
- The MK2-250 prints with flexible 1.75mm filaments at up to 250°C.
- The HT1-250 prints with typical 1.75mm filaments at up to 250°C with a higher torque, dual-drive setup.
- The HT1-4250 prints with typical 1.75mm filaments at up to 450°C with a higher torque, dual-drive setup.
- The HT3-250 prints with typical 2.85mm filaments at up to 250°C with a higher torque, dual-drive setup.
- The HT3-450 prints with typical 2.85mm filaments at up to 450°C with a higher torque, dual-drive setup.
Note: The MK2-250 is ALREADY a higher torque, dual-drive print head.
Note: The MK1-450 is NOT designed to print with lower temperature filaments like ABS or PLA.
Note: The Feed Chamber Cooling Fan should be used on the MK1-250 for low temperature (sub-225C) filaments like PLA.
Other Heads
Other Heads which do not deposit material, but still perform functions on our printers, include:
- The LA5-808 Laser provides 5A at 808nm. Always use proper Personal Protective Equipment.
- The LA6-450 Laser provides 6A at 450nm. Always use proper Personal Protective Equipment.
- The ST1 Spindle Tool is used for simple through holes and light milling operations on plastic. Always use proper Personal Protective Equipment.
- The Mic200 (200x Microscope) allows for close inspection and live metrologoy of the work being performed.
- The Quiet Storm provides additional directed cooling on the work.
Other Accessories
Other Accessories include:
- The SDK Sofware Developer's Kit, for designing your own print heads.
- The LTK Luer Tip Kit for Cold and Warm flow heads.
- The DBK Drill Bit Kit includes a variety of drilling and milling heads for the ST1 Spindle Tool.
What's the smallest amount?
I am occasionally asked "What is the smallest volume that you can discretely deposit?", which is a troublesome question, and implies that mechanical performance of the head is the only consideration - it is NOT!
The smallest possible displacement is one microstep of the motor. The 30cc syringe head (for example) has a flow calculation of 26.8 pulses (microsteps on the dispensing motor) per microliter. So, each single pulse would displace, either positively (unloading) or negatively (loading), 0.0373 microliters, or 373 nanoliters - IN THEORY, and without that many significant digits.
IN PRACTICE, however, attempts at very tiny movements like this are unreliable, as such a single tiny move might not even be enough to take up the tension between multiple matings of the teeth of gears and belts during a direction change. This number is accurate when averaged out over the course of multiple printing movements, but it is unrealistic to expect this equipment to provide this level of accuracy for single actions.
I have confidence in single, isolated displacement actions of as little as one microliter. Smaller displacement movements are absolutely possible, but you will have to perform some tests to determine the practical limit for your use, with your material - but I can help you with writing gcode for tests.
Why shouldn't I use low-temp material in a high-temp head?
We design each head for a specific group of materials - rigidness, temperature range, and filament size.
The low-temperature filament heads (*-250, which can be used at up to 250C for years, or up to 265C with a reduced lifetime) are designed to operate at 250C or less. This allows us to use certain materials in certain areas without issues.
The high-temperature filament heads (*-450), which can be used between 280C and 450C) are designed to operate at up to 450C. This consideration prevents us from using certain materials in certain areas without issue.
Short story medium, the very-low-friction PTFE tubing can come all the way to the heated nozzle in the *-250 heads, but it must be isolated and protected from the potentially 450C areas of the *450 heads.
But, but but...
Can I run PLA through the *-450 heads? Sure. Until you can't. Which won't be very long. Trust us.
Is it a good idea? No.
Why? Because the stainless steel delivery pathway is not as low-friction as PTFE, and YOU WILL GET CLOGS.
Can I do what I like with the equipment once I purchase it? Of course.
Will Hyrel warranty *-450 heads with *-250-type material clogged in it? No.
Why? Because we told you that these heads are designed and intended for use with filaments in the 280-450C range.
Just because you can do something does not make it a good idea.
And remember, our MK2-250 is for FLEXIBLE filaments (TPE and TPU filaments like ninjaflex), and NOT for PLA or ABS.
Let's reproduce most of the table from the Filament Heads page; hopefully this will clear up any confusion:
Head | Min Temp | Max Temp | Filament Type | Filament Size in mm |
Nozzle Type |
Nozzle Sizes in mm |
Recommended For | Description |
---|---|---|---|---|---|---|---|---|
MK1-250 | 150°C | 250°C * 265°C |
Standard | 1.75 +/- 0.15 |
Hyrel Special |
.35, .50, .75, 1.0 | ABS, HIPS, LayBrick, LayWood, Nylon, PC, PET, PETG, PETT, PLA, PP, PVA, T-Glase | Standard Torque for 1.75mm Filaments |
MK2-250 extra torque |
150°C | 250°C | Flexible | 1.75 +/- 0.15 |
Hyrel Special |
.35, .50, .75, 1.0 | BendLay, EcoFlex PLA, FilaFlex, Flex45, Ninjaflex, PlastInk Rubber | High Torque for Flexible 1.75mm Filaments |
HT1-250 high torque |
150°C | 250°C * 265°C |
Standard | 1.75 +/- 0.15 |
E3D v6 compatible |
standard options |
ABS, HIPS, LayBrick, LayWood, Nylon, PC, PET, PETG, PETT, PLA, PP, PVA, T-Glase | High Torque for Standard 1.75mm Filaments |
HT1-450 high torque |
275°C | 450°C | Engineering | 1.75 +/- 0.15 |
E3D v6 or MK8 compatible |
standard options |
PEEK, PEI (Ultem), PEKK, PPSU | High Torque for High Temperature 1.75mm Filaments |
HT3-250 high torque |
150°C | 250°C * 265°C |
Standard | 2.85 +/- 0.15 |
E3D v6 compatible 3 mm bore |
standard options |
ABS, HIPS, LayBrick, LayWood, Nylon, PC, PET, PETG, PETT, PLA, PP, PVA, T-Glase | High Torque for Standard 2.85mm Filaments |
HT3-450 high torque |
275°C | 450°C | Engineering | 2.85 +/- 0.15 |
E3D v6 or MK8 compatible 3 mm bore |
standard options |
PEEK, PEI (Ultem), PEKK, PPSU | High Torque for High Temperature 2.85mm Filaments |
* limited use at up to 265°C
Why can't I use an MK1-250 or MK2-250 interchangeably?
Well, the MK1-250 is designed for normal, rigid filaments like ABS, PLA, PETG, etc. It doesn't work as well with softer, flexible materials like Ninjaflex, Bendlay, Waxes, etc.
And the MK2-250 is designed for soft, flexible materials like Ninjaflex, Bendlay, Waxes, etc. It doesn't work as well with harder, more rigid filaments like ABS, PLA, PETG, etc.
But once you buy it, it's your equipment. You don't HAVE to follow the recommendations of the folks who designed the heads and have been using them for a decade now. And when they get jammed up, we can refurbish them or sell you new ones.
Please refer to the table above.
How reliable is your printer?
The machine was designed with a 5000 hour MTBF goal, and so far we have no reason to believe that this has not been met. Our parent company has had four axis motion control devices in the field for over 15 years with 100% customer satisfaction. We have been printing on our printers for several months; most of our builds run two to four hours. If the printer is used properly, we recommend a general cleaning and light bearing lubrication once every 200 hours of printing, (this takes about 5 minutes).
My Tablet won't turn on!
If your tablet has been sitting without being charged, and the battery drains completely, you must charge it to FULL (18+ hours) before it will reboot. Once it has been fully charged, hold down the power button until you see activity on the screen. Be sure to boot in Windows (not Android) mode. Sorry, this is not our design.
What happens when I click "Print"?
When you initiate a print job by clicking the print button, the following happens, in this order:
- First, Repetrel sends the info stored on all the heads to the printer. This includes:
- M6 Head Offset settings
- M721 Unprime settings
- M722 Prime settings
- m221 Flow setetings
- M728 Motor Current settings
- Next, Repetrel sends the text of the first gcode file, line by line.
- After this file has all been sent, if there is another gcode file, it will be executed line by line.
Note that we have two buffers in the motion controller; the standard buffer and the emergency buffer.
The initial head settings and the gcode file content is sent to the standard buffer, line by line.
Clicking certain buttons on the screen (Z fine adjust, temperature change, fan speed change, UV/laser strength, etc.) all go to the emergency buffer.
When the motion controller completes any command, it checks the emergency buffer for any priority commands (as listed above). When the emergency buffer is empty, it checks for the next command in the normal buffer.
Will it run on my country's power?
Our ESR, EHR, and 30M models use an auto-detecting, auto-switching ATX power supply, so no worries - they will run fine on 110VAC/60Hz or 220VAC/50Hz. But you may need to provide your own power cord (as you would use for a PC), or cut our plug off and connect a matching plug for your outlet. I'm sorry, but we don't stock special plugs for all the countries we ship to.
Please note that our Hydra models primarily work the same way, although we will have specially configured the hotbed and chamber heater for the input voltage stipulated on the order. Connecting a Hydra configured for 220V will run poorly on 110V. Connecting a Hydra configured for 110V to 220V will let the smoke out - don't do it!
How do you print PEEK?
Our best results with PEEK have been with a 190C bed and 415C head, printing on a powder-coated PEI surface.
Can I run a different language?
NO - IT WILL BREAK REPETREL! You can change the language of repetrel, but if you operate the computer on another language the "," and "." will be wrong and nothing will work. Trust me.