Most web and graphic designers use Photoshop on a daily basis as one of the main tools of the trade. Photoshop is incredibly powerful for designing and for photo editing, but Adobe also has Lightroom, which can be used for processing/editing photos and for the organization of photo files.
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As a designer you probably work with a lot of images, including those provided by clients, purchased stock photos, free stock photos, and possibly even your own photos. Because designers work with so many photos, and because many designers are also photography enthusiasts, Lightroom has become increasingly popular even outside of the circles of just professional photographers.
Also helping to boost Lightroom's popularity is its inclusion in Adobe's Creative Cloud. If you have a Creative Cloud subscription for software like Photoshop and Illustrator, you also have access to Lightroom.
Products with the T2 also no longer have the 'Lifeboat' connector, which was previously present on 2016 and 2017 model Touch Bar MacBook Pro. This connector allowed a certified technician to plug in a device called a CDM Tool (Customer Data Migration Tool) to recover data off of a. Mac: If you're fancy enough to have a MacBook with a Touch Bar, and you don't hate that Apple replaced your physical keys with virtual ones (perhaps a blessing, given the former's quality.
The early versions of Lightroom included basic functionality for editing photos, but the Library Module for organizing photos was equally important. Since photographers, even hobbyists, can easily build up an archive of thousands of photos, keeping them organized is essential. But over the years, with each new version, Lightroom's Develop Module has become increasingly powerful, and Lightroom users find themselves opening Photoshop less and less.
One of the best ways to take advantage of Lightroom's capabilities, especially if you are just getting started with the program, is to make use of presets.
Lightroom Presets are small predetermined settings files that, once installed, and with just a single click, can be used to apply specific and often stunning effects to your photos instantly. They serve a very similar purpose as Photoshop actions that would be used in Photoshop to apply a specific type of effect to a photo.
Presets can help to speed up your editing workflow, allow you to get amazing effects that you might not be able to duplicate on your own, and they can also serve as an excellent educational resource if you want to learn how to create different types of effects. There are many presets available for purchase, but there are also some that you can download for free.
Finding the best free presets can be a little challenging because you need to weed through a lot of lower quality options as well, so this collection was compiled to showcase some of the best free presets that you can download.
The free Lightroom presets have been organized into the following categories: Film Effects, HDR Effects, Color Effects, Black & White Effects and Vintage Effects.
Free Film Effect Lightroom Presets
These presets will give your digital photos a film-like appearance. These effects are often somewhat subtle, but can help to create truly beautiful photos.
PRO Landscape and Travel Lightroom Presets (Envato Elements)
Starting off our list strong is this collection of Lightroom presets. You will find a total of 15 different presets created to make editing nature, landscape, and outdoor photos easier.
Free Portrait Photography Lightroom Preset (Free)
With the help of this preset, you'll give your portraits a grittier feel and you can apply it with a single click.
The Editorial Collection v2 (Envato Elements)
If you want to make your photos look like they belong on the cover of a magazine, try this preset. You will find 13 presets compatible with both JPEG and RAW files.
Film-Inspired Lightroom Preset (Free)
This film-inspired Lightroom preset will give your photos a classic film look. You can apply it to all kinds of photos, including landscape, outdoors, portraits, and more.
Film Lightroom Preset (Free)
This is another film-inspired Lightroom preset but the difference is that this set gives your photos a soft, washed out look. Use it to produce an interesting effect on your portrait photos.
Anniversary Lightroom Presets – Volume I (Envato Elements)
This set of presets contains 20 different presets designed with couple, senior, and portrait photography in mind. A few notable features include authentic color tones, moody atmosphere, and film imitation.
The Starter Pack Lightroom Presets Collection (Free)
If you're just getting started with Lightroom, this preset collection is what you need. It contains several useful presets that will help you enhance your images and improve your workflow.
Sunny Landscape Lightroom Presets (Envato Elements)
Try this preset collection if you like shooting a lot of landscapes, sunrise or sunset photos. The collection comes with 30 different presets that support RAW, NEF, DNG, JPG, and TIFF formats.
Christmas Holiday Lightroom Presets (Envato Elements)
Add a little bit of holiday spirit to all your photos. You will find a grand total of 30 different presets with support for RAW, NEF, DNG, JPG, and TIFF formats.
Vintage Film Lightroom Preset (Free)
Use this vintage preset whenever you need to make your photos appear more vintage. The preset will apply a nice-looking, soft vintage effect that will make your photos stand out.
Grainy Matte Lightroom Preset (Free)
Matte effects are a popular effect for portrait photography and thanks to this preset, you no longer have to create it from scratch each and every time.
Newborn Lightroom Presets (Envato Elements)
This preset collection was designed with newborn photography in mind. A total of 20 presets will add various effects such as soft light, soft black and white, vintage, amazing eyes, and more.
Faded Lightroom Preset (Free)
Try this preset if you want to add a nice-looking faded effect to your photos. This effect works well with a variety of photos, including city scapes, landscapes, outdoors, portraits, and more.
I'm Blogger – 50 Lightroom Presets (Envato Elements)
You will find a grand total of 50 presets, perfect for travel, fashion, lifestyle, food, and other photography styles. Use it to make your blog stand out.
Free HDR Effects Lightroom Presets
Lightroom is great for allowing you to increase the dynamic range of a photo. The most recent version (Lightroom CC) includes a new HDR merge feature, but in order to do that you will need multiple exposures of the same scene. If you are just working with a single photo you can get an HDR appearance with these presets.
UltraPOP Lightroom Presets (Envato Elements)
Add new life to your photos with this UltraPOP preset for Lightroom. The collection contains 20 different presets, each of which adds a unique pop of color to your photos.
HDR Lightroom Preset (Free)
For a more dramatic look, consider using this HDR preset for Lightroom. You will be able to quickly apply all the effects needed to produce a true HDR look.
Flowerage Portrait Presets for Lightroom & ACR (Envato Elements)
These Flowerage Portrait presets for Lightroom are perfect for wedding and art photography. The collection works well with natural light portraiture with lots of greens and flowers.
Cinematic HDR Lightroom Preset (Free)
This is another HDR preset for Lightroom but this time you will get a cinematic look. This preset is perfect for landscape and nature photos and works with Lightroom 4, 5, 6, and CC.
HDR Lightroom Preset (Free)
This HDR Lightroom preset will make any photo appear more somber and works well with portrait photography. You can also tweak the preset to your liking.
Zine Fashion Lightroom Presets – Volume II (Envato Elements)
The Zine Fashion Lightroom presets were designed with fashion, art, and beauty photography in mind. The presets work with Lightroom 4 and higher and support a variety of image formats.
FoodKit – Food Presets for Lightroom & ACR (Envato Elements)
Any food or event photographer will find this preset handy. Not only will you be able to make your photos look yummy, you'll also be able to speed up your workflow significantly.
Strong HDR Lightroom Preset (Free)
Try this Strong HDR Lightroom preset if you want to make your photos appear bold and dramatic. The preset works with Lightroom 4 and newer versions.
Artistic vol. 3 Lightroom Presets (Envato Elements)
This pack of Lightroom presets contains 26 different presets with artistic look and feel. They are compatible with Lightroom 4 and up and work with both JPG and RAW images.
Autumn Color Boost HDR Lightroom Preset (Free)
Boost the dynamic range and make those fall colors really pop with this Autumn Color Boost HDR Lightroom preset. The preset works with Lightroom 4 and newer versions.
Black & White HDR Lightroom Preset (Free)
This preset makes it easy to apply the black and white effect to any photo and keep the deep, beautiful blacks.
Matte Blogger Presets for Lightroom & ACR (Envato Elements)
In this collection of Lightroom presets, you will find 10 tonal effects that will give your photos a beautiful matte look. The presets supports the RAW image format.
Free Color Effects Lightroom Presets
There are all kinds of options for working with color in Lightroom. With some dull photos you may want to make the colors pop, and in other cases you may want to use a faded effect instead. You can also do things like bring a blue sky to life or enhance autumn colors in a nature photo.
Color Pop Lightroom Preset (Free)
Bring your photos to life by adding a pop of color. This free preset will make the colors in your photos appear more vibrant. The preset works with both RAW files and .jpg files.
Vibrant Landscape Lightroom Preset (Free)
This is another colorful preset for Lightroom, designed to bring your landscape photos to life by making the colors appear more vibrant. The preset works with Lightroom 4, 5, 6, and CC.
Autumn Landscape Lightroom Preset (Free)
Autumn is one of the most colorful seasons and this preset will make those fall landscape photos appear even more lively. The preset is easy to use and adjust to your needs.
Light Leak Lightroom Preset (Free)
Add a nice leak effect to your photos with this free Lightroom preset. The preset works well in combination with vintage effects. It's easy to apply and to customize to your liking.
Cinema Lightroom Preset (Free)
Make your photos stand out with this free Lightroom preset. It will turn your photos into cinematic masterpieces and you can easily adjust it to your needs.
Intense Warm Lightroom Preset (Free)
As the name suggests, this preset will make your photos appear more intensive and warm them up. It's a great choice for portrait photos and it works with both Lightroom and Photoshop.
Popper Lightroom Preset (Free)
This preset is a great choice when you need to add a touch of color to your photos without going overboard. The preset works with Lightroom 4 and up as well as with Photoshop.
Soft Pastel Lightroom Preset (Free)
Although you can use this preset with a variety of photos, this soft pastel Lightroom preset works best with portrait and outdoor images.
Soft & Light Lightroom Preset (Free)
Knock two birds with one stone and add a soft look and improve the lighting in your photos with a single click.
Soft Pastel Lightroom Preset (Free)
Add a pastel touch to your photos with this Lightroom preset. It works with Lightroom 4 and up as well as with Photoshop and you can easily customize it.
Elegant Fade Lightroom Preset (Free)
Make your photos appear faded which will give them a nice aged look. The preset works with Lightroom 4 and up and supports both JPG and RAW image formats.
August Sunset Lightroom Preset (Free)
This preset will add a nice hazy summer effect to your photos and is reminiscent of August sunsets. The preset collection is free for personal use.
Faded Lightroom Preset (Free)
Try this faded Lightroom preset if you want to save yourself time and not apply the same filters and effects from scratch every time.
Grace Lightroom Preset (Free)
Make your photos appear more smooth by applying this Grace preset for Lightroom. The preset is free for personal and commercial use and works with Lightroom 4 and up.
Beach Life Lightroom Preset (Free)
Thanks to this Beach Life Lightroom preset, you will add a summer feel to all your photos. This preset works well with outdoors photography and can be tweaked to your liking.
Summer Breeze Lightroom Presets (Free)
Inspired by summer, this Lightroom preset has a soft, vintage touch and applies different light effects to your photos. It's easy to use and customize and works with Lightroom 4 and up.
Summer Love Lightroom Preset (Free)
The Summer Love is another summer-inspired Lightroom preset that will make your photos appear more warm and bright. Save time and apply this effect with one click.
Free Black & White Effect Lightroom Presets
It's easy to convert a color photo to black & white in Lightroom, but simple black & white conversions often look dull and uninteresting. To get the most from your black & whites you'll need to make some other tweaks as well, and these presets will take care of the work for you.
Black & White Lightroom Preset (Free)
This Black and White Lightroom preset was designed for RAW images but works well with the JPG format as well. It will instantly turn your color photos into black and white.
B&W Berkeley (Free)
Not only will this preset turn your photos into black and white, it will also give them a nice vintage effect. The preset is easy to apply and customize.
Free Vintage Effects Lightroom Presets
Want a vintage effect for your photo? That can be done very easily with this selection of excellent vintage and retro presets.
Instant Hipster Lightroom Presets (Free)
Try this Hipster Lightroom preset if you an Instagram-style filter for your photos. The preset works with Lightroom 4 and newer and is the most realistic Instagram preset pack for Lightroom.
Vintage Fade Lightroom Presets (Free)
This preset will fade the colors of the photo and apply a subtle vintage effect. It works with Lightroom 4 and newer as well as with Photoshop.
Vintage Lightroom Preset (Free)
This preset, called Vintage Wash will instantly make your photos feel more retro. The preset works with Lightroom 4 and newer and supports a variety of image formats.
Lavender Lomo Lightroom Preset (Free)
Recreate a lomo look with the help of this Lightroom preset. This preset works with Lightroom 4, 5, 6, and CC versions.
Blondies and Brunettes Lightroom Presets (Free)
This fun collection of Lightroom presets works well with portrait photography and will apply a fun retro look to your photos.
Warm Retro (Free)
Similarly to other Lightroom presets, this collection of presets will add a warm retro look to your photos. The collection supports Lightroom 4 and newer.
Vintage Garden (Free)
Touch Bar Customizer Program
This vintage collection of Lightroom presets is a great choice when you need to add a vintage effect to landscape and outdoors photography.
Orange & Green Vintage Clarity Lightroom Preset (Free)
This Lightroom preset will turn your photos black and white and make them appear more vintage at the same time.
How to Install & Use a Lightroom Preset
Lightroom presets make it easy to edit your photos in a consistent manner. They save you time because you don't have to recreate the image adjustments from scratch. There are plenty of free Lightroom presets available online. Here's a quick tutorial on how to install and use a Lightroom preset.
How to Install and Use a Preset for Lightroom CC 2018+:
- Download and unzip the preset file you want to use
- Launch Lightroom
- Navigate to Develop Module
- Hover over the + sign next to the Presets
- Select Import Presets
- Apply the preset by selecting the photo you want to edit and clicking the preset name.
How to Install and Use a Preset for Older Versions of Lightroom:
- Open Lightroom
- Go to Preferences > Presets
- Click on the box titled: Show Lightroom Presets Folder
- Double click on Lightroom
- Double click on Develop Presets
- Copy the folders of your presets into the Develop Presets folder
- Restart Lightroom
- Use the preset by selecting the photo you want to work with and clicking on the preset name
Related Posts
Is Manual Machining Faster than CNC for Simple Parts?
CNC depends a lot on accurately measuring tools for length. CNC machines require tool data, by which I mean length and diameter information, so they understand exactly where the cutting is happening. The controller needs to know how long your tool is relative to some standard such as the 'gage line', and it is often nice to know exactly what the tool's diameter is as well, since tool diameters fall within a certain tolerance that may affect the accuracy of your parts. We will describe measuring tools for length via touch off and tool setter in this article.
There are lots of ways to measuring tools for length ranging from ad hoc just-in-time methods to more elaborate systems that involve tool presetters, tool setters on the machine, and potentially even tool management software. If you're running a shop, you'd obviously like to minimize the cost of managing the tool data as well as minimizing the chances the wrong data is in use when a part program is run. Just imagine what happens if the tool is actually an inch longer than what the controller thinks it is–CRASH!!!!
In shops with more than one machinist, it's also vitally important that the whole shop be on the same page with respect to measuring tools for length. Otherwise, one machinist will do things one way, and the next machinist to try to run the job on the machine will do things another, and we may once again have a CRASH!!!!
Measuring Tools for Length
Let's focus on tool length data, and moreover, let's start out on the dead simple end of the spectrum. How do we go about getting the length offset?
Touch Off
The simplest way to measuring tools for length is to take a gage block of known dimensions, put the tool in the spindle, and start to lower the tool until you can no longer slide your gage block under the tool. Note that you don't want to just lower the tool onto the gage block–bad for tool and gage block alike!
Instead pull the gage block out of the way each time, lower the tool, and then attempt to slide it back under. With this method of measuring tools for length you can determine exactly how far the tip of the tool is from whatever your gage block is resting on–vise jaw, machine table, or top of the part. You would then use this information to determine your tool length relative to some standard, and you'd enter that into the tool table on your controller.
Another method of measuring tools for length is the paper touch off. Originally this was done with cigarette rolling papers, because they're very thin. I find it is convenient to use post-its, because they're in a pad that's about the right size. You want to stick the paper down between the touch off point and the whirling cutter using a little bit of oil. Lower the cutter until it makes the paper move.
You'll be 0.002 – 0.005″ or so above the touch off point, depending on your paper thickness. You want to use the same kind of paper every time so you can determine its thickness by experiment and thereby know how to correct the touch off for paper thickness.
Let me state the obvious: the paper touch off and the automatic tool setter mentioned below are the only cases I know where the touch off is performed while the cutter is moving. In all other cases the spindle should be stopped when measuring tools for length!
There are endless variations on this method
Tool Setter
Okay, the next step up in measuring tools for length is to use some form of measuring device or tool setter instead of a gage block. With this method, you're going to put an indicator of some kind down, and lower the tool onto the measuring pad or tip of the indicator until the indicator needle goes to zero. There are also electronic indicators that light up at the right point. Here is a typical dial gage-based tool setter:
A typical Z-Axis tool setter available from Amazon…
Here is a typical video of a dial indicator touch off gage in use:
Positive or Negative Length Offsets?
You can set things up when measuring tools for length either way, but pick one and stick to it as your standard for your shop. Negative length offsets mean you're working 'backward' from some reference on the table, fixturing (like a vise jaw) or part. Positive length offsets mean you're working 'forward' from a fixed feature relative to your spindle.
Positive offsets are often referred to as being relative to the 'gage line'. Gage line is a little more independent across machines, and is better suited to situations where the offsets will be preset, meaning they're determined off the machine before the tool is installed in the machine. The term 'gage line' refers to a specific spot on the taper where tool zero is located by convention. For example, on a CAT40 taper, the maximum diameter of the taper is 1.75″. On a CAT50, it's 2.75″. It's straightforward to locate that spot and use it as tool zero on a tool holder.
The thing to standardize in a shop is where tool length zero is, and from there, whether positive or negative offsets will be used when measuring tools for length. BTW, there are pros and cons to positives and negatives and whether to reference relative to the longest or the shortest tool.
For example, some people like negative offsets because if the offset table is cleared, then every offset is 0, you won't crash a tool. In other words, the negatives make the spindle move towards the work, less negative is further from the work. Negatives are often more natural when referencing via touch off. But there are some significant cons to using a negative standard:
1. It seems less 'logical' to many because it works against the right hand rule coordinate system. The actions required to touch off are simple. But for anything more complex, you'll be scratching your head.
2. The touch off becomes problematic with fixturing moving around the table. Do you touch off the bare table? Do you touch off the fixed vise jaw? What happens when you put a different set of vise jaws in the vise, let alone remove the vise and use some other fixture? When that happens, all of your length offsets are now invalid because their reference has been moved. Gage line (positive tool offsets) are referenced relative to the spindle, and so can't change like that.
3. The aforementioned safety feature. If the tool offsets are zeroed, the machine just cuts air. If a minus sign is inadvertently forgotten and a positive value is entered, you just cut even more air. With positive offsets, if you enter a spurious minus, you get a crash.
People like gage line or positive offsets when measuring tools for length because:
1. Gauge length offset is 'logical' (a long tool has a bigger offset value)
2. Can be measured out of the machine with some sort of presetter.
3. Literally can be used unchanged for years if the tool is an indexable face mill etc.
4. How do you 'touch-off' a curved surface?
5. Is independent of fixturing on the table. With negative offsets, if you change or remove the fixtures, you've lost the touch off measuring point.
6. Positive offsets let you manage all the other offsets more intuitively, because they're not tied to the reference. For example, you may have measured your workpiece height offline with a height gage and want to mess with the offsets around that without affecting your tool length offsets. With negative offsets, you have to keep your calculator handy and really understand the interactions of the various offsets and part dimensions. Note that if you like to measure parts and fixtures offline, it is often convenient to make Z=0 your table, and use the work offsets to account for the height of the top of the part above the table. You could even set a height gage on the table or touch off with a probe to measure and set that work offset.
Most of the pros prefer gage line / positive length offsets because they're more productive through use of presetters and because you can carry the tooling around to any machine in a multi-machine shop and the offsets are constant regardless of the machine or the fixtures. The time spent touching off is completely eliminated with gage line offsets (or to be precise, it is shifted to a presetter and done once), and you can perform other tricks more easily. It's a very efficient method of measuring tools for length.
Beginners find negative length offsets are great for measuring tools for length because the touch off is easy to understand, if not very reusable, and the percieved safety features of making a crash less likely.
There are some methods to add a little more safety to positive offsets. For example, a subprogram can check for positive offsets that are shorter than some minimum and halt the part program if any are encountered. This will prevent operation with zeroed or negative values quite easily, for example.
There are methods to add flexibility to a negative offset system. For example, if you use a toolsetter (see below) on your machine table, you don't have to worry about losing the touch off point because you change fixturing.
Okay, one last bit of confusion. You can convert from one system to the other, at least in principle.
Better Touch Tool For Mac
Referencing Via Touch Off
Let's step away from gage line referencing for a minute and look at referencing via touch off when measuring tools for length. In this case, you're using the DRO or Axis readouts from your controller to tell you the position of the tip. For this procedure to work, you need a reference with which to zero the Axis readout. There are two approaches to this problem. One is to use an actual reference tool, the other is that the tool setter is precisely calibrated so that you know that when it zeros, you are exactly 2″ (or some other value) above the surface the tool setter is resting on.
If you use a reference tool, set up your reference tool first, and then zero the Z-axis. You're ready for measuring tools for length. When you zero your other tools, the Axis readout will give you the tool length. For obvious reasons, you'd like your reference tool to be shorter than the other tools so that the tool length offsets come out positive. Even if your reference tool is quite long, it's just a matter of checking its length and then setting the Z-axis indicator to the appropriate value so that 'zero' is in a place such all other tools have a positive length. For example, instead of zeroing with the reference tool, set a positive value that is always the same.
It's important not to use an actual cutter as the reference tool. If you cut with it, your reference may change as the tool wears. You might even consider using an empty toolholder (always the same one!) for that reason.
If you use a tool setter of known precise height, you can touch set a short tool and decide where you want zero to be. You might also touch set an empty tool holder when measuring tools for length.
Positive Offset Touch Offs (aka Turn Your VMC into a Zillion Dollar Height Gage)
Let's say you've decided to use positive offsets, but you don't have a tool presetter. Or, you have the presetter and are using positive offsets, and you'd like to use your machine as a height gage to figure out the height of some feature on a fixture or part above your machine table. Both are straightforward.
There is some number that represents your gage line tool zero being on the table. In other words, the distance from the table to the gage line, which if you've defined it as I did above for the CAT tapers, is the spindle face. The point is to standardize this number for all your machines. Let's say you pick a value of 15″ so that when the spindle face is touching the table, you have Z set to read 15″.
This preset is a great choice when you need to add a touch of color to your photos without going overboard. The preset works with Lightroom 4 and up as well as with Photoshop.
Soft Pastel Lightroom Preset (Free)
Although you can use this preset with a variety of photos, this soft pastel Lightroom preset works best with portrait and outdoor images.
Soft & Light Lightroom Preset (Free)
Knock two birds with one stone and add a soft look and improve the lighting in your photos with a single click.
Soft Pastel Lightroom Preset (Free)
Add a pastel touch to your photos with this Lightroom preset. It works with Lightroom 4 and up as well as with Photoshop and you can easily customize it.
Elegant Fade Lightroom Preset (Free)
Make your photos appear faded which will give them a nice aged look. The preset works with Lightroom 4 and up and supports both JPG and RAW image formats.
August Sunset Lightroom Preset (Free)
This preset will add a nice hazy summer effect to your photos and is reminiscent of August sunsets. The preset collection is free for personal use.
Faded Lightroom Preset (Free)
Try this faded Lightroom preset if you want to save yourself time and not apply the same filters and effects from scratch every time.
Grace Lightroom Preset (Free)
Make your photos appear more smooth by applying this Grace preset for Lightroom. The preset is free for personal and commercial use and works with Lightroom 4 and up.
Beach Life Lightroom Preset (Free)
Thanks to this Beach Life Lightroom preset, you will add a summer feel to all your photos. This preset works well with outdoors photography and can be tweaked to your liking.
Summer Breeze Lightroom Presets (Free)
Inspired by summer, this Lightroom preset has a soft, vintage touch and applies different light effects to your photos. It's easy to use and customize and works with Lightroom 4 and up.
Summer Love Lightroom Preset (Free)
The Summer Love is another summer-inspired Lightroom preset that will make your photos appear more warm and bright. Save time and apply this effect with one click.
Free Black & White Effect Lightroom Presets
It's easy to convert a color photo to black & white in Lightroom, but simple black & white conversions often look dull and uninteresting. To get the most from your black & whites you'll need to make some other tweaks as well, and these presets will take care of the work for you.
Black & White Lightroom Preset (Free)
This Black and White Lightroom preset was designed for RAW images but works well with the JPG format as well. It will instantly turn your color photos into black and white.
B&W Berkeley (Free)
Not only will this preset turn your photos into black and white, it will also give them a nice vintage effect. The preset is easy to apply and customize.
Free Vintage Effects Lightroom Presets
Want a vintage effect for your photo? That can be done very easily with this selection of excellent vintage and retro presets.
Instant Hipster Lightroom Presets (Free)
Try this Hipster Lightroom preset if you an Instagram-style filter for your photos. The preset works with Lightroom 4 and newer and is the most realistic Instagram preset pack for Lightroom.
Vintage Fade Lightroom Presets (Free)
This preset will fade the colors of the photo and apply a subtle vintage effect. It works with Lightroom 4 and newer as well as with Photoshop.
Vintage Lightroom Preset (Free)
This preset, called Vintage Wash will instantly make your photos feel more retro. The preset works with Lightroom 4 and newer and supports a variety of image formats.
Lavender Lomo Lightroom Preset (Free)
Recreate a lomo look with the help of this Lightroom preset. This preset works with Lightroom 4, 5, 6, and CC versions.
Blondies and Brunettes Lightroom Presets (Free)
This fun collection of Lightroom presets works well with portrait photography and will apply a fun retro look to your photos.
Warm Retro (Free)
Similarly to other Lightroom presets, this collection of presets will add a warm retro look to your photos. The collection supports Lightroom 4 and newer.
Vintage Garden (Free)
Touch Bar Customizer Program
This vintage collection of Lightroom presets is a great choice when you need to add a vintage effect to landscape and outdoors photography.
Orange & Green Vintage Clarity Lightroom Preset (Free)
This Lightroom preset will turn your photos black and white and make them appear more vintage at the same time.
How to Install & Use a Lightroom Preset
Lightroom presets make it easy to edit your photos in a consistent manner. They save you time because you don't have to recreate the image adjustments from scratch. There are plenty of free Lightroom presets available online. Here's a quick tutorial on how to install and use a Lightroom preset.
How to Install and Use a Preset for Lightroom CC 2018+:
- Download and unzip the preset file you want to use
- Launch Lightroom
- Navigate to Develop Module
- Hover over the + sign next to the Presets
- Select Import Presets
- Apply the preset by selecting the photo you want to edit and clicking the preset name.
How to Install and Use a Preset for Older Versions of Lightroom:
- Open Lightroom
- Go to Preferences > Presets
- Click on the box titled: Show Lightroom Presets Folder
- Double click on Lightroom
- Double click on Develop Presets
- Copy the folders of your presets into the Develop Presets folder
- Restart Lightroom
- Use the preset by selecting the photo you want to work with and clicking on the preset name
Related Posts
Is Manual Machining Faster than CNC for Simple Parts?
CNC depends a lot on accurately measuring tools for length. CNC machines require tool data, by which I mean length and diameter information, so they understand exactly where the cutting is happening. The controller needs to know how long your tool is relative to some standard such as the 'gage line', and it is often nice to know exactly what the tool's diameter is as well, since tool diameters fall within a certain tolerance that may affect the accuracy of your parts. We will describe measuring tools for length via touch off and tool setter in this article.
There are lots of ways to measuring tools for length ranging from ad hoc just-in-time methods to more elaborate systems that involve tool presetters, tool setters on the machine, and potentially even tool management software. If you're running a shop, you'd obviously like to minimize the cost of managing the tool data as well as minimizing the chances the wrong data is in use when a part program is run. Just imagine what happens if the tool is actually an inch longer than what the controller thinks it is–CRASH!!!!
In shops with more than one machinist, it's also vitally important that the whole shop be on the same page with respect to measuring tools for length. Otherwise, one machinist will do things one way, and the next machinist to try to run the job on the machine will do things another, and we may once again have a CRASH!!!!
Measuring Tools for Length
Let's focus on tool length data, and moreover, let's start out on the dead simple end of the spectrum. How do we go about getting the length offset?
Touch Off
The simplest way to measuring tools for length is to take a gage block of known dimensions, put the tool in the spindle, and start to lower the tool until you can no longer slide your gage block under the tool. Note that you don't want to just lower the tool onto the gage block–bad for tool and gage block alike!
Instead pull the gage block out of the way each time, lower the tool, and then attempt to slide it back under. With this method of measuring tools for length you can determine exactly how far the tip of the tool is from whatever your gage block is resting on–vise jaw, machine table, or top of the part. You would then use this information to determine your tool length relative to some standard, and you'd enter that into the tool table on your controller.
Another method of measuring tools for length is the paper touch off. Originally this was done with cigarette rolling papers, because they're very thin. I find it is convenient to use post-its, because they're in a pad that's about the right size. You want to stick the paper down between the touch off point and the whirling cutter using a little bit of oil. Lower the cutter until it makes the paper move.
You'll be 0.002 – 0.005″ or so above the touch off point, depending on your paper thickness. You want to use the same kind of paper every time so you can determine its thickness by experiment and thereby know how to correct the touch off for paper thickness.
Let me state the obvious: the paper touch off and the automatic tool setter mentioned below are the only cases I know where the touch off is performed while the cutter is moving. In all other cases the spindle should be stopped when measuring tools for length!
There are endless variations on this method
Tool Setter
Okay, the next step up in measuring tools for length is to use some form of measuring device or tool setter instead of a gage block. With this method, you're going to put an indicator of some kind down, and lower the tool onto the measuring pad or tip of the indicator until the indicator needle goes to zero. There are also electronic indicators that light up at the right point. Here is a typical dial gage-based tool setter:
A typical Z-Axis tool setter available from Amazon…
Here is a typical video of a dial indicator touch off gage in use:
Positive or Negative Length Offsets?
You can set things up when measuring tools for length either way, but pick one and stick to it as your standard for your shop. Negative length offsets mean you're working 'backward' from some reference on the table, fixturing (like a vise jaw) or part. Positive length offsets mean you're working 'forward' from a fixed feature relative to your spindle.
Positive offsets are often referred to as being relative to the 'gage line'. Gage line is a little more independent across machines, and is better suited to situations where the offsets will be preset, meaning they're determined off the machine before the tool is installed in the machine. The term 'gage line' refers to a specific spot on the taper where tool zero is located by convention. For example, on a CAT40 taper, the maximum diameter of the taper is 1.75″. On a CAT50, it's 2.75″. It's straightforward to locate that spot and use it as tool zero on a tool holder.
The thing to standardize in a shop is where tool length zero is, and from there, whether positive or negative offsets will be used when measuring tools for length. BTW, there are pros and cons to positives and negatives and whether to reference relative to the longest or the shortest tool.
For example, some people like negative offsets because if the offset table is cleared, then every offset is 0, you won't crash a tool. In other words, the negatives make the spindle move towards the work, less negative is further from the work. Negatives are often more natural when referencing via touch off. But there are some significant cons to using a negative standard:
1. It seems less 'logical' to many because it works against the right hand rule coordinate system. The actions required to touch off are simple. But for anything more complex, you'll be scratching your head.
2. The touch off becomes problematic with fixturing moving around the table. Do you touch off the bare table? Do you touch off the fixed vise jaw? What happens when you put a different set of vise jaws in the vise, let alone remove the vise and use some other fixture? When that happens, all of your length offsets are now invalid because their reference has been moved. Gage line (positive tool offsets) are referenced relative to the spindle, and so can't change like that.
3. The aforementioned safety feature. If the tool offsets are zeroed, the machine just cuts air. If a minus sign is inadvertently forgotten and a positive value is entered, you just cut even more air. With positive offsets, if you enter a spurious minus, you get a crash.
People like gage line or positive offsets when measuring tools for length because:
1. Gauge length offset is 'logical' (a long tool has a bigger offset value)
2. Can be measured out of the machine with some sort of presetter.
3. Literally can be used unchanged for years if the tool is an indexable face mill etc.
4. How do you 'touch-off' a curved surface?
5. Is independent of fixturing on the table. With negative offsets, if you change or remove the fixtures, you've lost the touch off measuring point.
6. Positive offsets let you manage all the other offsets more intuitively, because they're not tied to the reference. For example, you may have measured your workpiece height offline with a height gage and want to mess with the offsets around that without affecting your tool length offsets. With negative offsets, you have to keep your calculator handy and really understand the interactions of the various offsets and part dimensions. Note that if you like to measure parts and fixtures offline, it is often convenient to make Z=0 your table, and use the work offsets to account for the height of the top of the part above the table. You could even set a height gage on the table or touch off with a probe to measure and set that work offset.
Most of the pros prefer gage line / positive length offsets because they're more productive through use of presetters and because you can carry the tooling around to any machine in a multi-machine shop and the offsets are constant regardless of the machine or the fixtures. The time spent touching off is completely eliminated with gage line offsets (or to be precise, it is shifted to a presetter and done once), and you can perform other tricks more easily. It's a very efficient method of measuring tools for length.
Beginners find negative length offsets are great for measuring tools for length because the touch off is easy to understand, if not very reusable, and the percieved safety features of making a crash less likely.
There are some methods to add a little more safety to positive offsets. For example, a subprogram can check for positive offsets that are shorter than some minimum and halt the part program if any are encountered. This will prevent operation with zeroed or negative values quite easily, for example.
There are methods to add flexibility to a negative offset system. For example, if you use a toolsetter (see below) on your machine table, you don't have to worry about losing the touch off point because you change fixturing.
Okay, one last bit of confusion. You can convert from one system to the other, at least in principle.
Better Touch Tool For Mac
Referencing Via Touch Off
Let's step away from gage line referencing for a minute and look at referencing via touch off when measuring tools for length. In this case, you're using the DRO or Axis readouts from your controller to tell you the position of the tip. For this procedure to work, you need a reference with which to zero the Axis readout. There are two approaches to this problem. One is to use an actual reference tool, the other is that the tool setter is precisely calibrated so that you know that when it zeros, you are exactly 2″ (or some other value) above the surface the tool setter is resting on.
If you use a reference tool, set up your reference tool first, and then zero the Z-axis. You're ready for measuring tools for length. When you zero your other tools, the Axis readout will give you the tool length. For obvious reasons, you'd like your reference tool to be shorter than the other tools so that the tool length offsets come out positive. Even if your reference tool is quite long, it's just a matter of checking its length and then setting the Z-axis indicator to the appropriate value so that 'zero' is in a place such all other tools have a positive length. For example, instead of zeroing with the reference tool, set a positive value that is always the same.
It's important not to use an actual cutter as the reference tool. If you cut with it, your reference may change as the tool wears. You might even consider using an empty toolholder (always the same one!) for that reason.
If you use a tool setter of known precise height, you can touch set a short tool and decide where you want zero to be. You might also touch set an empty tool holder when measuring tools for length.
Positive Offset Touch Offs (aka Turn Your VMC into a Zillion Dollar Height Gage)
Let's say you've decided to use positive offsets, but you don't have a tool presetter. Or, you have the presetter and are using positive offsets, and you'd like to use your machine as a height gage to figure out the height of some feature on a fixture or part above your machine table. Both are straightforward.
There is some number that represents your gage line tool zero being on the table. In other words, the distance from the table to the gage line, which if you've defined it as I did above for the CAT tapers, is the spindle face. The point is to standardize this number for all your machines. Let's say you pick a value of 15″ so that when the spindle face is touching the table, you have Z set to read 15″.
How can we use this for measuring tools for length?
Start with measuring a positive tool table offset for a tool of unknown offset. Mount the tool and do a touch off on the table. The difference between your standard value for tool zero (15″) and the touch off 'Z' value is the tool table offset for that tool.
To use the machine as a height gage, enable the tool height offset for the tool you're probing with. Now the machine's Z readout is the same as a height gage readout relative to that probe tip!
Since you can now use your machine as a height gage, you can use it to measure the height of some feature, like a fixed vise jaw, that you want to use for tool length offset touchoffs because it is inconvenient o reach the table. Given the height of the feature, its easy to adjust the touch off to once again wind up with a positive tool length offset.
Are we getting too confusing yet? Probably. The important thing is to pick a standard method when measuring tools for length and then use it constantly until it is second nature. Master the simple stuff before you try to get fancy.
Work Offset Touch Off
Okay, let's assume you've got your tool table filled out with a bunch of tool offsets. Let's moreover assume you've used positive offsets. You want to make sure your work offset for Z is also properly set. One way to do this is to keep a 'tool' that is an edge finder of some kind that can be used to find an exact position in Z.
For example, you could mount a dial indicator in a tool holder, and make it your reference tool. Give it a position in the tool table. Give it a tool length offset that measures a positive offset when the dial is zeroed. Stick it in the machine. Select the reference tool's length offset. Bring it down until it zeros on the top of part, and then set your Z to whatever you want the top of part to be. Z=0 for top of part is very common so that any positive Z is inside the part. Z=height of part is also common. Either way, between having the correct work offset and the correct tool length offset, you machine can now precisely locate things in the Z dimension.
Here is a good intro from Tormach on how to put all of these concepts together in Mach3 when measuring tools for length:
Be sure to pick up Part 2 of the video as well!
Probe-Style Tool Setters (also called tool setters)
The most sophisticated tool setters are based on probing-style technology, and are integrated with the machine's controller. These tool setters let you press a button and have the machine automatically probe the tool's length (and sometimes diameter), and then the data is automatically entered into the controller's tool table. It automates the entire business of measuring tools for length.
Here is a typical tool setter:
Note how the probe is set up–we can both measure tool length by dropping down onto the probe tip, as well as diameter. Typically, the tool is spun in reverse at a slow speed while the measurement is being made. The reverse spin is so the tool doesn't cut the tool setter, and the rotation itself ensures the measurement of the lowest hanging insert or cutter tooth.
Note that the probe software or the machine controller will usually have parameters that let you decide whether the probe sets up the tool length offsets in the table as positive or negative offsets.
Are tool setters the Ultimate?
At this point, you may be thinking tool setters are the ultimate in automation and productivity when measuring tools for length. That may be true, but it really depends on whether your shop needs to optimize Cycle Time (the time the machine is running) or Setup Time (the time when the machine is idle).
If you have a lot of Machine idle time, you probably should focus on reducing Setup time. A tool setter is ideal because it takes Setup tasks and automates them. On the other hand, if your machine is busy all the time and you need more production from it, while your operators have available idle time, you may want to try Tool Presetters to take this problem off the machine table and reclaim that time.
In Part 2, we'll talk about Tool Presetters among other things. For more information about optimizing Cycle Time versus Setup Time, see our CNC Machining and Manufacturing Cookbook, and especially our article on Cycle Time vs Setup Time.
Part 2: Tool Presetters, Tool Data Management, and the Importantance of Consistency of Tool Lengths for Chatter…
