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Sometimes you need a tub of grease.

But more frequently you just need a little. A few months ago I bought myself a Dualco 700231 Grease Gun and a Dualco 10547 4.5” nozzle. I filled the gun from a tub of Phil Wood Waterproof Grease that I’ve been working through for a handful of years. This made servicing my pedals much easier and less messy than previous jobs. Purchases like this make me feel more like an adult.

Grease

Pillow Talk

One component of optimizing for sleep is selecting the right tools. Back in 2010 I went looking for a replacement for the stereotypical feather pillow. Feather pillows work well enough when new, but degrade over time and are impossible to thoroughly clean without damaging them. This limited service life is suboptimal, and I assumed there must be a better solution out there.

I settled on buckwheat hulls. I reasoned that these would be easy to replace, which meant the life of the pillow would be determined by the shell rather than the filling. That the hulls were easily removed also meant the pillow could be washed. These two factors addressed my primary complaints against feather pillows.

I already had a zafu filled with buckwheat hulls, so I had some experience with the material that made me think it would work well for sleeping. Buckwheat hulls are lightweight and springy, making them easy to adjust to the contours of the body. The shape of the hulls means that, even under load, they do not compress flat, but instead leave a path for the movement of air. They are hypoallergenic and aren’t a food source for anything, which minimizes the probability of dust mites or other bugs taking up residency.

About the only negative thing one can say about buckwheat hulls is that they are loud. This was never a concern with my zafu, but I was worried that the noise would be unpleasant for a head pillow that I was trying to sleep on.

The solution to this was provided by a (now defunct) company called Serenity Pillows. They offered a patented dual-chamber pillow, which was filled with buckwheat hulls on one side, and a sheet of felted wool on the other side. By placing your head on the wool side you retained all the benefits of a buckwheat hull pillow, plus the temperature-regulation of wool, while the wool also muffled the sound of the hulls. I was sold on this idea as soon as I saw it.

Serenity Pillows offered two sizes of this dual-chamber pillow: one that we in the Western world would call a normal sized pillow, and a smaller version named the Shambho. The smaller size was about 16” x 10” (with a variable depth, depending on the amount of hulls you added or removed), which they claimed was closer to the traditional size of buckwheat hulls pillows used in Japan. I had never questioned the size of a pillow before, but when presented with this choice I couldn’t come up with any rational argument to support the larger size. I purchased the Shambho.

Shambho Pillow

I’ve been sleeping on that same pillow for close to a decade now. It is never too hot or too cold. The amount of hulls can be adjusted to user preference. The shape of the pillow can be molded to support back or side sleeping. And I’ve never thought of a reason to want a larger size. It’s the perfect pillow.

I wash pillow cases regularly, and the pillow shell itself once or twice per year. This is a simple matter of dumping the hulls into a bucket, removing the felted wool sheet, and tossing the empty shell into the laundry machine with a bit of bleach.

Initially, the unusually small size of the pillow did make it difficult to find pillow cases, but I found that you can search for “toddler pillow cases” and find a plethora of appropriately sized (around 20” x 14” flat) options. Or you can have them made. I prefer linen – as in flax – for bedding, which I acquire from the large number of Eastern European sellers on Etsy. Since these products are usually made to order, I’ve found you can just send them the proper dimensions and they’ll sew up whatever you want. I always request a pillow case with an envelope closure, since the non-closing pillow cases more common in this country are dumb and their existence can only be justified by laziness. For this style of pillow case, 18” x 14” is about the right size.

At one point a few years ago I heard that Serenity Pillows had gone out of business, and was disappointed that I would never be able to replace this pillow – until last year, when I discovered a company called Sachi Organics had purchased the designs to both sizes of the Serenity dual-chambered pillows. They sell both the Shambho and the larger model Rejuvenation.

At the end of 2017 I purchased the Sachi Shambho during a sale at one of their dealers. It is identical to the original pillow, except for the tag. The small size of the Shambho makes it easy to store, so I was able to justify to myself the purchase of a second pillow both as a spare for guests, and against the day when the original Shambho must be replaced (if that day ever comes – today it is as good as new, but for some discoloration from use). I also purchased a replacement wool sheet for the original pillow. On top of its comfort, the serviceability of the pillow – that you can rejuvenate it by simply replacing the buckwheat hulls and wool – is another factor that attracts me to the Shambho. I expect I’ll be sleeping on the same pillow for at least another decade.

Shambho Pillow

I subscribe loosely to the idea of a daily uniform.

Loosely because I own more than one style of shirt, jacket, and pants. But I do try to keep things paired down, and standardizing on the color black means everything goes together and is largely fashion-agnostic. The approach reduces mental taxation.

I am more firm in the area of socks. Darn Tough makes the best socks, and the Tab No Show Light Cushion is the best Darn Tough sock. I bought my first pair in 2009. Over the subsequent years I have added a few additional pairs to my collection, but those original socks continue to be in regular rotation. I maintain a small number of other socks in my arsenal for specialty purposes – a couple pair of boot socks for those rare occasions when I wear tall boots, a couple pair of toe socks for augmenting huarache style sandals, and a pair of waterproof socks I bought to experiment with – but for almost all of my sock-wearing days each year I have the Tab No Show Light Cushion socks on my feet.

The Expedition Sewing Kit

A few months ago I accidentally ripped out the top stitches of the pull tab on one of my Altama OTB boots, making the already-large loop even larger. Normally repairing this would be a job for the Speedy Stitcher, but I decided to use the excuse to try the Patagonia Expedition Sewing Kit.

Patagonia Expedition Sewing Kit

The Patagonia kit is a reissue of an old piece of kit by Chouinard Equipment. Both the old and new versions come with a chuck that is used to hold a machine needle, and a cotter pin which slides through the chuck to provide a handle. The cotter pin is also intended to aid in rethreading draw strings through a channel on a sleeping bag, pack, or jacket hood.

The instructions included with the Patagonia kit explain the use of both the awl and the cotter pin. Users on the Zombie Hunters forum scanned and cleaned the instructions from the original Chouinard kit, which I have reposted here for comparison. This video also demonstrates the use of an awl for those unfamiliar with the process.

The idea behind the Chouinard awl and the Speedy Stitcher is the same. It provides a way to hold a machine needle, push it through heavy material, and easily create a secure lock-stitch. The immediately apparent difference between the two is in size and weight. The chuck and cotter pin in the Patagonia reissue of the Chouinard awl weigh 10 grams and could fit in the smallest coin pocket. A Speedy Stitcher (with thread, bobbin, and needles removed to make the comparison fair) weighs 64 grams and isn’t going to make the cut in any reasonable backpacking gear list.

I repaired my Altama OTB boots twice so that I could compare the process. First I completed the repair with the Chouinard awl, and then I went back and stitched it again with the Speedy Stitcher. The Speedy Stitcher, living up to its name, was much faster. The primary reason for this is that, between the bobbin within the handle and the thumb tack the thread is wrapped around before going through the eye of the needle, the Speedy Stitcher is able to keep the awl side of the thread under tension when completing a stitch. With the Chouinard awl I had to try to secure the thread with my thumb, which didn’t work terribly well. This made each stitch slower, as I had to carefully manage the tension in order to get a tight stitch but not pull the thread through too far on either side of the project.

Fortunately the solution to this problem was simple and presented itself to me after the boot project. First I tried placing the thread between the two pieces of the cotter pin. This increases tension, but it isn’t so tight that the thread cannot be pulled out. I have taken to doing this and then carefully pulling through the amount of thread I need. When I have the right amount of thread, I cut off a tail that’s an extra few inches long and simply tie it in a clove hitch around the cotter pin. The thread is now as secure as with the Speedy Stitcher and the efficiency of the tool is greatly increased.

DIY

The Chouinard kit was unavailable for many years until Patagonia’s reissue, which has led to people replacing the awl with off-the-shelf components. I thought this sounded like an easy and fun project, and would allow me to return the borrowed Patagonia kit. For the chuck I went with the recommended Mini Keyless Chuck. This comes with a shank that I cut off with a pair of snips, and then filed the cut smooth with the file on a Leatherman. The chuck already has a hole tapped in the side of it, but it is too small to fit a cotter pin or any other useful handle. I drilled this hole out with a 1/8” drill bit, after which it was the perfect fit for a 2.5” cotter pin I found at the hardware store.

The chuck ships with two collets. One is too large to hold any of the needles I tried. The smaller of the two works well.

One of the annoyances I had when using the Chouinard awl was that the chuck would often slide off the cotter pin when both of my hands were occupied on the other side of the project in creating the lock stitch. To solve this for my version, I simply added an O-ring with a 3mm interior diameter to the cotter pin. This prevents the chuck from sliding off the handle, as well as preventing it from sliding over the part of the cotter pin where I have the thread clove-hitched.

Expedition Awl

This version of the expedition awl – including modified chuck, cotter pin, and O-ring – tips the scale at 13 grams. That is 3 grams heavier than Patagonia’s reissue, but cheap and easy to make. The chuck is also a bit more compact than Patagonia’s.

I’ve used this version of the awl on a couple of small projects, and it works great. It is certainly something I would pack on any kind of extended travel, and for use at home it works just as well as the Speedy Stitcher.

Thread

In order to be able to store thread with the my new awl I purchased a pack of plastic thread bobbins. These have notches to prevent the thread from unwinding, a space to label the bobbin so that you know what thread it contains, and they keep the thread in a flat profile that makes it easy to slide into a small kit.

I chose three different threads to store with the awl. Sunstop V-69 Black Polyester UV from Sailrite, Z-69 Nylon from a spool I bought from Seattle Fabrics something like 15 years ago and have yet to use up, and a waxed nylon thread from Tandy.

Sailrite recommends the UV-treated polyester thread for general outdoor purposes, and the nylon thread for applications where greater strength is wanted but prolonged exposure to the sun is not expected. Between the two I think I have most eventualities covered.

The waxed nylon thread is probably heavier than what I need in a field repair kit given the type of equipment I generally carry, so I may end up removing it.

Needles

For needles, I began with the Straight #4 and Straight #8 from the Speedy Stitcher kit. These are my most frequently used needles with the Speedy Stitcher.

To supplement these two needles I copied the well-considered Chouinard kit recreation at Three Points of the Compass and purchased two needle sets from Superior Threads. I added one of the #60/8 Microtex Sharp Titanium-coated Needles and a #80/12 Topstitch Titanium-coated Needle to my kit. The Microtex #60/8 is a very sharp, fine needle that would be my choice when using the awl on lighter fabrics, like clothing or a silnylon tarp. The Topstitch #80/12 is a little larger, and also incredibly sharp, making it a good bridge between the Microtex and the two needles from the Speedy Stitcher.

I don’t pretend to understand all the different types of sewing needles out there and when one should use which type, but between these four I feel that I can confidently hack together any kind of field repair I am likely to need.

Despite this kit being built around the awl, I did also add one hand-sewing needle. I’m not sure what size or style it is. I acquired it sometime early in the millennium when I purchased a selection of vintage British sail-making needles (claimed to be from the early 20th century) on eBay. This one is clearly not a sail-making needle – or at least it is much finer than the typical triangular #16 I generally associate with sail-making – but it’s the needle I’ve always come back to for any repair when I have not been using an awl and machine needle.

As I mentioned when discussing my possibles pouch, I’ve always carried repair needles in one of the little plastic cases that you get when you purchase lead for a mechanical pencil. In fact, at some point – probably around the point I became an adult and stopped using mechanical pencils with any frequency – I started purchasing replacement lead just for the containers.

Et cetera

Rounding out the kit is a small selection of safety pins, and three small pieces of Tenacious Tape (black, clear, and green). Despite the fun of using the awl, a small piece of good tape is often a better repair tool for technical materials.

I’ve placed all of these items in a spare Zpacks Wallet Zip Pouch.

The kit in its entirety weighs 42 grams. In comparison, the complete Patagonia Expedition Sewing Kit weighs 40 grams. I have more and better thread, what I think are probably better needles, and a much nicer pouch to keep it all in. The Patagonia kit does include some different colored thread, but I don’t believe in visual pollution and I think a bit of black thread on earth-tone equipment is fine. Patagonia also includes a needle threader and a couple buttons, but I don’t think those are necessary additions.

All considered I’m very happy with this kit. The original awl from Chouinard Equipment was a great idea, and Patagonia’s reissue is perfectly serviceable. I had fun putting together my own version. It’s an extremely low cost investment that provides a lot of functionality and serves to increase my resiliency on any trip of extended length, as well as being useful at home.

Expedition Sewing Kit

The size and durability of MicroSD cards make them an attractive option for carrying important data.

In my experience they are unlikely to be damaged by incidental moisture, whether that be from rain, sweat or the occasional shower. But a single card is small enough that I always worry it will be lost, and it is susceptible to being snapped if carried inappropriately. The Digital Dogtag from N-O-D-E is one of the better solutions I’ve found for carrying a single MicroSD card. It uses a simple spring loaded socket to hold the card securely, and provides enough rigidity that I’m not worried about damaging the card. I added the dogtag to my current APEK iteration this past September and have been happy with the result.

Digital Dogtag / APEK

Laser Red

My criteria for sunglasses is fairly simple:

  1. They must offer impact protection. Not protecting my eyeballs has always seemed dumb. Not protecting them after I’ve sunk a few thousand dollars into my cornea would be even dumber. ANSI Z87.1 is a good standard for impact protection, but I will of course happily accept MIL-PRF-31013.
  2. They should offer interchangeable lenses. This is not critical, but it is nice to have. Different lens colors are appropriate in different environments. Good eyewear is usually expensive, which can make purchasing multiple pairs prohibitive. If you do purchase multiple pairs, you still have to carry them, which is much less attractive than carrying one pair of frames and different lenses. Photochromic lenses make the single-lens option more palatable, until you realize that the alternative is interchangeable photochromic lenses.
  3. They should not be butt-ugly.

Prior to PRK, the fourth and most important criteria was that they somehow be prescription compatible. I always assumed this was the most limiting criteria. While recovering from my shine job I lay in bed thinking about eyewear, and assumed that there would be a much wider range of options available to me when I could see again.

Imagine my disappointment when, after I recovered enough to see a computer, I found that there were actually no compelling new options. Even without the need of prescription lenses, the Rudy Rydon Stealth are still the best thing out there.

Determined to not be so easily dissuaded from spending money, I decided to treat myself to a new pair of lenses for the Rydons. After some consideration I landed on the ImpactX2 Photochromic Laser Red. Red lenses provide excellent contrast and visual depth. I have owned a pair of Rudy’s non-photochromic Racing Red lenses for a while and found them to be the ideal option for overcast days, but their static nature gave them a more narrow window of effectiveness which limited their actual use. The Photochromic Laser Red take the same excellent color and add the dynamism I’ve come to enjoy: the lenses offer 75% light transmission on the clear side and 16% light transmission on the dark side. On the light side that’s actually 1 point higher than the same generation clear-to-black lenses, making them even more appropriate for indoor or night work. On the dark side, that’s right in the middle of the transmission range typical of most sunglasses. The “laser” in the name refers to a light mirrored coating. These aren’t the mirrorshades Bruce Sterling promised you, but the lasering does serve to reduce glare and eye strain by reflecting some of the light away rather than absorbing it. It also adds an attractive bluish sheen.

I bought these lenses last December and I’ve removed them from the Rydons in exactly two situations: on water and on snow. In those environments I think a good, dark polarized brown lens is hard to beat. I opt for the Rudy Polar 3FX. In every other environment I’ve been in over the past year, my preference has been for the Photochromic Laser Red. I wear them whenever I’m on the bike. Even if I’m riding past midnight and it is pitch black, they transmit enough light that I barely notice I have them on. I wear them indoors when things are going bang. I wear them during the equinox when the sun is low on the horizon, pointing directly into my eyes. Like all photochromic lenses, they react to UV light, and so are suboptimal in cars. They will darken, but not completely. I tend to only spend a collective handful of hours per year in cars, so this isn’t a consideration for me.

If I was only going to have one pair of lenses, it’d be these. (But I like interchangeable lenses so I keep the brown lenses in my pack too.)

Rudy Rydon ImpactX2 Laser Red: Dark

Rudy Rydon ImpactX2 Laser Red: Clear

The rain has begun, and I'm treating myself to new tires with fresh tread.

I first began to use the Schwalbe Marathon Supremes six years ago. Since then I have tried a few other tires, but within a couple months I invariably end up coming back to the Marathon Supremes. They ride well, only get maybe one or two flats per year, and I appreciate the visibility of the reflective sidewall. I tend to replace them after somewhere around a year of use – I think the set I removed today were in service for 15 months. I don’t track miles, so I don’t know what sort of distance the tires get me, but it’s up there. They aren’t cheap, but they’re worth it for the contribution they make to my everyday mobility.

Maintenance Day

Respirator Considerations

Another year, and California is burning.

I’ve taken advantage of the recent fires to perform more respirator trials. I use the respirators when getting around town on my bicycle, which provides a good analog for any aerobic activity, allowing me to evaluate things like breathability, humidity within the respirator, and how well the seal performs when contaminated air is being blown over the respirator at high speeds. I’ve found there are certain characteristics that I desire in a respirator.

Rating

The standard respirators that are most worth considering are N95. The “N” designates that it is not resistant to oil. The “95” designates that it filters 95% of particles 0.3 microns or larger.

After the BP oil spill in 2010 I purchased a P100 respirator. These respirators filter 99.97% of particles, and are “strongly resistant” to oil. They are large, bulky cartridge respirators that are great to keep at home, but you are not going to carry them around.

Recently I purchased a box of R95 respirators. These are more similar to the N95 than the P100, but are “somewhat resistant” to oil. They have a service life of 8 hours in environments with airborne oil particles, which is long enough for me to get to my P100 respirator. Unfortunately the R95 respirators are quite a bit thicker than the N95. They could be easily carried in a bag, but they are too thick to fit in my PPE kits (without moving to a larger aLOKSAK). I’m splitting the R95 respirators between home and work, but will continue to carry N95 respirators in my kits.

Back in 2007, when I first started researching respirators, I came across an adhoc study comparing these ratings against common household materials:

I recently assisted in a study to determine how available materials compared to P-100 respirator cartridges. Cartridges were opened, the contents removed, and a series of different materials were attached to the cartridges. The cartridges were installed onto standard North full-face respirators. A Certified Industrial Hygenist performed fit testing on the mask assembly using a standard quantitative fit testing machine, the one that compares particle counts inside the mask to ambient air particulate counts.

The materials tested were:

  • coffee filters, 1 layer;
  • t-shirt fabric (knitted fabric), folded into 8 layers, wet, dry, and oiled with petroleum jelly;
  • bandanas(woven fabric), folded into 8 layers, wet, dry, and oiled with petroleum jelly;
  • a HEPA vacuum cleaner filter, dry.

We boiled the cloth to shrink it before testing.

The performance of the coffee filter, HEPA filter, and the dry fabric was terrible. Abysmal. Worthless. Bad.

The wet fabrics were a bit better, but still bad. Why firefighters use wet bandanas to filter smoke is beyond me. They are practically worthless.

The HEPA filter was so moisture-resistant that the mask fogged up to where you couldn’t see out. And it didn’t perform that well. Perhaps its stiffness made the seal leak, it really should have done much better.

But the 8-layer oiled bandana and oiled t-shirt performed about 80% as well as the P-100 filter, and in fact passed about half the tests. This makes it equivalent to about a N-90, which is 90% as good as a N-95 filter. It was nothing short of amazing how well the oiled fabric filtered air.

Now it’s interesting that there is a report (page 1, page 2) from WW1 that a doctor on a troop ship made everyone wear oiled gauze masks, and did not lose a single person on the trip across the Atlantic.

Using an old-style cloth surgical mask and oiling it with petroleum jelly increases its filtration efficiency something like 1000 times. And oiled cloth filters actually filter better the dirtier they get, until they clog up. They are used in high-perforance cars.

Oh, and I suppose I ought to admit it was my kid’s science fair project.

Harness

Most respirators either have a single continuous harness that goes around the crown of the head and back of the neck, or two separate straps. I’ve not noticed a significant difference between these two options, though the single continuous harness can easily be adjusted for smaller heads with a single knot.

The two-piece harness is usually attached to the respirator via staples, the penetration of which may reduce the efficacy of the respirator, but only if the puncture results in a tear.

When staple punctures tear holes in the filter medium, the concentration of particles leaking through those openings is considerable and resembles face seal leakage… The findings of this study suggest that stapling head straps directly onto the filtering material of a respirator has the potential to create leaks in amounts similar to that of face seal leaks.

I look for a textile harness. Cheaper respirators use thin rubber bands. For single use these are adequate, but they snap if you are frequently donning and doffing the respirator.

Valve

A valve to vent exhalation is critical. Non-vented respirators are useless to me. Even if all you’re doing is sitting around not moving, the non-vented respirator will build up humidity over time, making long-term wear quite uncomfortable. Add in any physical activity and the process is accelerated.

At a minimum the vent should be closed at the top of the respirator. This prevents the warm, humid air from moving directly up and fogging your eyewear. On some respirators, the vent is closed on both the top and sides, forcing the exhaled air to escape downwards only. This is desirable.

Non-vented respirators are appropriate in healthcare environments when sterility needs to be maintained. That is to say: where you are concerned about your exhalation impacting the sterility outside the respirator, not the other way around. Vented respirators meet the same protection requirements as their non-vented counterparts.

If you’re worried about keeping your operating theater sterile, get a respirator without a valve and embrace the suck. Otherwise don’t.

Fold-Flat

I want to carry the respirator, which means I need to be able to fold it flat. There are two variants of fold-flat respirators: those that fold vertically along the center, and those that fold horizontally.

A center fold respirator provides more volume across the front of the face. When a respirator fits properly and provides a good seal, it should collapse slightly due to suction when inhaling during aerobic activity. When wearing a center fold respirator, this collapse happens along the cheek area. I find I tend not to notice it. With a horizontal fold respirator the collapse is more likely to happen across the front. The respirator touches my lips with each heavy inhalation, so I constantly notice it. I do not think there is a functional difference here, but it is a factor in long-term comfort.

A horizontal fold respirator can be more comfortably pulled down below the chin. A center fold respirator can not (unless perhaps you have an unusually long neck). If you need to temporarily remove the respirator – perhaps to take a drink – it can still be pushed down, such that the nose clip rides on the chin. I find this uncomfortable for more than a brief period of time. When the air quality index (AQI) is red or worse (151+), I generally want to wear the respirator whenever I’m outdoors. When the AQI is orange (101-150), I don’t feel I need a respirator if I’m just walking or standing outdoors, but I do want it when I’m breathing heavily. It’s in these conditions that I appreciate the ability to wear a horizontal fold respirator pulled down on my neck. I can easily (and quickly) pull it up when I begin breathing more heavily (ie, when I get on the bike). With a center fold respirator I’m more likely to temporarily store the unused respirator in a pocket, increasing the time requirement to don it.

Horizontal fold respirators place the valve in the center. On center fold respirators, the valve is offset to one side. When using horizontal fold respirators, I find that close-fitting eyewear is more likely to fog if I’m not moving (when moving more than a few miles per hour, air flow across the eyewear eliminates any fogging). I experience less fogging with center fold respirators. I’m not sure if this is due to the position of the valve – perhaps the offset valve encourages the warm, moist exhalations to be vented to the side, rather than immediately up to the lenses – or due to the seal. A center fold respirator, I find, provides a superior seal across the top of the face because the respirator naturally wants to pinch the bridge of the nose and hug the cheeks.

Color

Most disposable respirators are white. Some come in gray. The fashion market offers respirators in dark colors and patterns. These look cool, but I prefer white. White shows dirt, encouraging me to replace the respirator more frequently than I probably otherwise would. Despite the lack of a NIOSH standard for respirator reuse (including those labeled “single use” by the manufacturer), particle build up on the surface of the respirator will increase pressure, which will increase leaks. If you’re using the respirator out of concern of influenza or flu, the color of the respirator is probably irrelevant. For smoke and other pollutants that leave visible residue, white may be better.

Recommendations

3M has a large, sprawling product line that seems to have a lot of redundancy and overlapping offerings. The 3M Aura 9211+/37193 checks most the boxes and is the nicest horizontal fold respirator I’ve used. The material is about 1.5mm thick, and the valve sits about 15mm off the face of the respirator at its tallest point. The wings easily fold in, allowing the respirator to fit in a small aLOKSAK for one of my PPE kits. Because of how the respirator folds, when the wings are folded in, the thickest part of the respirator excluding the valve is 13mm. I feel the respirator is a bit loose around my chin and jaw, but the seal still seems effective. Condensation becomes visible on the outside of the valve, which shows you it is working. The material that makes up the upper portion of the respirator has a perforated layer between inner and outer shells, which I imagine contributes to the respirator’s breathability, but this upward facing exhaust causes the respirator to fog eyewear a bit more than it otherwise would. The center portion of the respirator has some sort of stiff interfacing that feels a bit like a thin foil. This stiffness seems to prevent the suction collapse I usually experience with horizontal fold respirators (although the perforated upper portion and the loose fit on the lower portion of the respirator could also contribute to this). The harness is two pieces, textile, and stapled.

Condensation on a 3M 9211+

The Dräger X-plore 1760 is a vented, center-fold R95 respirator. It is the highest quality respirator I’ve tried. Being an R95, it is too thick to fit into my PPE kits. The material is 3mm thick. Folding along the center line, and then folded again such that it would be the right dimensions to fit in my desired aLOKSAK, it ends up being 18mm thick (excluding valve), which doesn’t work. The valve sits about 11mm off the face of the respirator. If you want some oil resistance, and don’t need to fold the respirator more than once, this is an excellent option. I stay significantly more comfortable underneath this respirator than others. It has a tight seal on my face that provides good suction on inhalation, and you can hear and feel the valve flutter on exhalation. Condensation becomes visible on the outside of the valve, which shows you it is working. I have attempted to fog the lenses of my Rudy Rydons while wearing this respirator, and failed. They only fog when I break the seal of the respirator to adjust its placement. It has a single-piece, continuous, textile harness.

Condensation on a Drager X-plore 1760

After discovering how great the 1760 was, I purchased the Dräger X-plore 1750, hoping that it would be the same thing but thinner. That ended up being exactly what it is. This respirator is the N95 variant, which explains the difference in thickness. It is just under 2mm thick. Folded to fit in the aLOKSAK, the thickest part of the respirator excluding the valve is 7mm. I find myself leaning toward center fold respirators, and this is a perfect center fold N95. If you just want to buy a box of respirators and be done with, I’d recommend getting these.

Dräger also produces a version of the 1760 with activated carbon that I would like to try. If it isn’t any thicker than the standard 1750, the extra odor protection provided by the activated carbon could be a nice bonus. My respirator budget is depleted for now, and I have more than I need for a while, so you’ll have to wait until a future fire season for a review of that one.

My P100 respirator is a 3M 6391. It has not seen much use, as I’ve yet to be in an environment where it is needed. I’m as happy as I can be given the limited wear time I’ve logged with it over the past 8 years. You’ll have to wait until the next oil spill before I can give a meaningful review. One consideration worth keeping in mind when shopping for a respirator like this is that the height of the nose piece can interfere with some eyewear.