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Found 12 results

  1. Hi, I’m building my first own guitar and I bought an unfinished maple guitar neck (neck and fretboard). To finish it, I would like to use tru oil. However, maple fretboard needs to be protected by an waterproof layer to avoid dirty stain on the wood. Tru oil is not a real oil because it became hard but can it provide a sufficient protective layer for maple? If it’s not the case, can apply tru oil just on the neck part and use acrylic or polyurethane lacquer for the fretboard? Personally, I don’t seed any difficulties but perhaps I’m too confident. Has anyone ever done that? Thank you for your answers.
  2. First you need a nice piece of wood, wide enough to fit the widest part of your neck. The thickness can vary but I usually take a piece of 20mm thick. I usually use fretboard woods of 6mm. Step 1: The most important thing to begin with is shaving the surfaces of the piece of wood to get perfectly flat surfaces. Now shave the sides of the wood to get perfect 90° degree edge. This is important if you’re going to use the sides as a guide for a router. Step 2: Draw a line on the sides of the wood under the angle you want for your headstock I usually take 13° like a Gibson. Now cut the wood in two pieces on this line and do this as straight as possible. Step 3: Align the two pieces like the picture below so you can shave the tilted surface of both pieces. If you do it like this you can save time by shaving both pieces at the same time. Shave downward with the grain! Step 4: If both surfaces are perfectly flat, then glue the pieces together like the pictures below. The more you move the little piece, the thicker or thinner your headstock gets. I like my headstocks pretty thick for the stiffness, so I make them 16 to 17mm. Shave the excess wood off the headstock. Step 5: Now you can saw or rasp the shape of your neck out of the big piece. You can only make a neck volute if you used a thick piece of wood! Step 6: I like to use the truss rods with the small ends, unlike the big bullet truss rod like a 70’s Fender. Because of the small end you can keep more wood, and that is important if you want to use a top lock with screws which go through the neck. The more wood you have, the more stable the screws. In case of a top lock, I move the truss rod a bit back from the lock. From there I route a narrower channel for the truss rod adjustment tool or Allen-wrench. So just measure your rod, and route the channel out of the wood with the exact dimensions. Step 7: Place the fretboard wood over the neck wood. I always like to use a longer piece of fret board than the neck, because I’m never sure if it’s going to be a 22 or 24 fret neck. (as shown below) Drill a hole through the fret board into the neck on the exact places where the 1st and 15th fret will come. Not in the middle of course, otherwise you’ll drill into the truss rod . Make sure you have two drill bits of the same diameter as the hole you just drilled. Now glue the fretboard to the neck (don’t forget the truss rod), and keep the fretboard in place by putting the drill bits into the drilled holes. After gluing you can take them out again. I use the inner tube of a bicycle tire to wrap around the neck tightly to press the fretboard to the neck while drying, but you could use wood clamps. Step 8: Now cut out the neck and head stock shape you want. Just use a bandsaw or other shaping saw. If you want you can already drill the holes for the tuners. Step 9: Onto the slots for the frets and fretboard radius. There are lots of fret calculators on the Internet to calculate any fret distance for any neck scale. Calculate the scale you want, and draw lines on the fret board where the frets must come, and use a fret slotting saw to saw the slots. Be very careful and saw straight, or intonation will be a problem! A fret slotting saw automatically saws the right depth, so don’t worry to cut your fretboard in half. Now you can radius the top of the fret board Just choose a radius you like, for instance a fender radius is smaller than a Gibson radius. Take a piece of cardboard or plastic and draw the radius on it. Cut out the radius so you get a shape like the picture below. Now sand the fret board to match the radius on the template you just made. With different templates you can create a compound radius neck. Step 10: Last but not least, the back of the neck. Start rasping the neck on different angles from outside to centre of the neck. Look at the pictures below. For this job you can also create a template to check the radius. After rasping all the angles out of the neck, you have to smooth the edges with a metal scraper. After that use some sanding paper to finish the neck. Now the neck is ready for inlays and frets....
  3. Hi. I have a strat with a wilkinson trem which I made some time ago. The E1st string has developed a rattle all the way up ie on each fret , from about fret 10 and it even buzzes loudly on the very last fret. The string is not touching the end of the neck or the pickups. I have put plumbers' tape around every grub screw and thread I caN find gone up & down the neck with 600 grit , a stewmac fret rocker files etc etc - ie there are no high frets underlying the E 1st string. As far as I can tell the frets are seated well. I'm not sure where to look next. I think this has come on over time and indeed i'd swear on some days it's worse than others but that's a little subjective. Can anyone give me some clues and ideas on identifying the basic issue and fixing it please? All advice welcome. Thanks, Rob.
  4. Hello! This is going to be my first attempt at replacing hardware on my guitar. My question is how do I go about finding the specs I need for my guitar? I have the original neck that came with the guitar that I want to replace, so what dimensions or measurements do I need to look at? Any help will will be much appreciated. Thanks.
  5. My question is sort of a complex one: It requires a couple of other questions to answer. A little insight into my build will also aid in determining the answer. I want to hear what other builders/luthiers have to say about how to go about designing and executing an angled bolt on neck for my electric solid body builds. I'm sure there are mixed answers to this, as I have already read a great deal of online resources on the subject, as well as on ProjectGuitar.com That being said, I really do not want to go the route of using angled shims. I am a luthier/shop owner, and want a permanent solution that does not reduce the neck-to-body contact, while maintaining the direction of building bolt on necks. Since this post is kind of lengthy, I will organize it into categories. The first of which, introduces my build and brings about my first question. The build: I am building an electric solid body, "explorer" style. I am building a bolt on neck. Since I am using a tune-o-matic bridge, I will need to angle the neck in relation to the body for proper action. A very important note, is to point out that my body is made of one hunk of Yellowheart hardwood, 2 inches thick and 10 inches wide. I cross-cut the slab and will be gluing the halves together, side by side, to get get the width I need for an "explorer" style body; the "wings" protrude rather long outward. This wood is so dense it almost does not float in water! Please do not question my reasons, I am doing this for tone, which is subjective. Anyway, the reason I am pointing this out, is that the wood is very heavy and I want to reduce the weight. I would like to go with the standard body thickness (1-3/4") but that will be too heavy. So I would like to reduce some of the weight by going with 1-1/2" thickness. Of course considering my cavities and their depths. 3/4" for one humbucker cavity, my electrical cavity not any deeper, and my neck pocket cavity, hopefully at 5/8". This brings me to my first questions: What to do about the dimensions of my neck pocket? Do I reduce the thickness of my neck's heel, or do I reduce the thickness of the neck joint where the bolts mount? I would like to have a neck pocket depth of 5/8". My thinking is that the Yellowheart will be strong enough to allow for a neck joint that is only 7/8" thick. What do you guys think? This also ties into my entire post about an angled neck, which brings me to the next category... Angled neck: I have seen guys like the pros at StewMac suggest angled shims for bolt on necks, but I do not like that solution. My thinking is to angle the neck pocket. However, one idea I had is to angle the neck heel itself. Right away I can see the con in that. An angled neck heel will be tough to replace. An angled neck pocket means the owner can replace the neck with a standard square heel. What do you guys think? This also leads to another concern: With an angle in the pocket, the neck heel will now approach the bolts at an angle. Should I not square the heel? Rather my thinking is to offset the squareness so that the neck heel fits the pocket at all sides and gives enough room for my bolt holes. I would hate to have a gap at the end of the joint. How to create an angled joint: How to go about building an angled neck pocket? Or how to go about some other method? One idea I had was, to support my neck pocket routing template with an angled shim, so that my router approaches the pocket at the desired angle. What comes to mind though is: Do I route from 7/8" on up so that my minimum pocket thickness is 7/8", or do I route so that my maximum pocket thickness is 7/8"? Again pondering if the Yellowheart will be strong enough. I think it will. Of course the height in which the neck rises beyond the body face is most important to string action. This leads me to think that 7/8" should be the maximum thickness for the neck joint. What do you guys think? Thank you all ahead of time for any suggestions. I rarely seek help and am usually solving problems on my own. Seeing as how this slab of Yellowheart cost me around 120 bones, I really do not want to do anything I will regret. So you guys are saving me a lot of headache on the matter. Sometimes a second opinion can be necessary. Thank you!
  6. Hi everyone. I've just registered and this is the first forum of this kind I'm a part of, nice to have a place to get started on guitar building. I have a question. I've been building a telecaster kind of guitar, but with standard hardware (not telecaster-y) including two humbuckers and a hardtail fixed bridge. When I made the neck pocket I realised it's not deep enough (should be 15 or so millimeters, and it's about 12), so the strings sit on all the frets and make no sound. Do you think it would be wise to add a neck angle by, say, gluing wood into the neck pocket? Or should I try something else? I didn't made the neck pocket per se, my guitar is made from three layers of wood, so I just cut the neck space on the top layer. Thanks in advance, hope to get into this kind of stuff.
  7. Love my "pointies," and trying to design a somewhat bastardization between a Jackson KV2 and B.C. Rich Kerry King Signature V. I am also drawn toward slim neck profiles, such as the Ibanez Wizard neck (17mm @ 1st fret - 20mm @ 12th fret) and the Jackson "speed neck." Conversely, I am NOT a fan of guitar necks reminiscent of a roller coaster at Six Flags... The neck will be constructed of a maple-walnut-maple lamination (roughly 6/4 - 1/4 - 6/4), and the grain orientation of the laminates after glue-up will look like \\\\II//// In addition to these precautions, I thought it would be wise to add additional strength to the neck with the use of supporting or stiffening rods. It seems that there are two prominent types of these supports: 1) KTS Titanium Neck Support Rods These have been frequently used by Ibanez over the last couple of years, especially to strengthen and support their VERY thin "Wizard" necks. As a side note, according to claims made by both Ibanez and KTS, the properties of titanium will markedly improve the resonance and tone of the instrument (although I have not seen any empirical studies supporting this claim. IMHO, subtle changes noticed in the tonality and resonance would qualify more as SUBJECTIVE observations, rather than OBJECTIVE). 2) Carbon Fiber Stiffening Rods I first saw these available from StewMac, but I have since seen them offered by a number of other luthiery suppliers, such as LMII (IIRC). Carbon fiber is well known for its significant strength and stiffness, while remaining very light-weight. While I cannot remember for sure at the moment, I believe the use of carbon fiber neck stiffening rods have also been attributed with changes to the tonal qualities of an instrument. As I would like to construct a thin, wide neck similar to an Ibanez Wizard neck, stiffness and strength are important characteristics. Also, the scarf joint of the headstock should meet the neck roughly at the 3rd fret. I have heard from several people that scarf joints AND slim-profile guitar necks are substantially more prone to breakage and/or serious damage. My thoughts are that using the titanium rods would greatly reduce the likelihood that the neck would break at the scarf joint (although, the carbon fiber may accomplish the task equally well). As for pricing, I have seen the KTS Titanium rods on eBay for $20/ea. While I do not remember an exact amount for the carbon fiber stiffening rods offered by StewMac, I think the are similar in price. In closing, I am very interested in hearing from anyone with insight into either, or both, method for supporting and stiffening thin guitar necks. Are there any differences noticed in the effectiveness at restricting or reducing any neck flexing, twisting, or breakage.
  8. Hello all, I'm reading 'da bible' (Melvyn Hiscock's book) at the moment. Pages 94 and 95 mentions a fixture for drilling the truss rod holes in both ends of a bolt on guitar neck. Has anyone ever built this fixture or know where to find some detailed blueprints to make one? I'm trying to figure out how to drill the headstock end properly. Thank you, ken
  9. Hello, to all of you, electronic gurus ! I'm currently working on a "swiss army knife" custom guitar, but I want everything planned out, before actually buying anything critical. (features: tremolo, on-board FFactory clone, coil split, MAYBE a sustainer...) So. I've been hearing that market-available sustainers don't work with a neck pickup, because of interferences. But, I want a sustainer (thanks to the amazing "sustainer ideas", i could do the sustainer system myself, possibly modifying it to fit my demands), and I want my two sh2 and sh4 seymour duncan pickups BUT, I've come across this, during my journey on the internet (it fits !!) Fernandes Sustainer Website's FAQ says the sustainer needs to be at least 2cm away from any selected pickup. So, as I'm ordering a custom body at Warmoth, do you think the "24-frets humbucker relocation" option could solve the interferences problem ? (Would it make possible for me to use the sustainer with the neck pickup selected ?) If not, I could still chose to "relocate it", in order to have room for a real neck pickup, and a sustainer (at least) But, would it alter the sound of my neck pickup, "in a dramatical way" ? ( i'm sure it does change the sound, but, how much does it change ?) Thanks in advance, ladies and gentlemen ! And please let me apologize for my approximate english !
  10. Before adjusting anything make sure your guitar is strung up correctly and that your neck has the correct amount of relief and is not excessively bowed or warped. If your neck is bowed you first need to adjust the truss rod and check that the nut is good. If your neck is warped it will require a more extensive repair. Also check that the angle of the tremolo unit is correctly set and not floating at an angle. This would require setting up prior to any work on the rest of the instrument. In general it is recommended that all other avenues of instrument setup are checked before resorting to the use of shims otherwise one can easily end up going backwards and forwards finding that adjustment of one things changes those of another! Shimming a neck should be the last resort if all other setup adjustments run out of usable range. Try to imagine the strings of your guitar as a flat plane and the fretboard as a parallel plane running underneath them. The angle of the top plane which contains the strings is controlled by the position of the tremolo unit and the nut. The angle of the lower plane which is the the fret board is controlled by the neck pocket of the body. If your setup is perfect these two planes will have a more or less equal distance between them at any point. If your guitar doesn't look this way try adjusting the height of the tremolo bridge unit first. This will usually take care of the problem unless you find your action becoming too high or too low equally across the length of the fret board. If adjusting the height of the bridge corrects the problem but leaves you with too high or low of an action (distance between the strings and fretboard) or the bridge unit is left excessively high or low then you will need to to use shims to adjust specific areas of the instrument's geometry. Shims are commonly used in two different areas of the neck. One is under the nut and the other is directly under the heel in the neck pocket of the body. Nut shims are usually made out of one or more thin sheets of metal such as brass or steel. Shims located in the neck pocket are usually made out of wood rather than metal as the pressure between the two mating faces can deform the wood of the neck or body. In either case you can produce your own shim by using a sheet of paper, a business card or preferably a slice of hardwood veneer such as Maple. For shims in the neck pocket you might need to fold or layer paper stock 3-4 times to get the required thickness needed then trim to fit properly. Softer cardboard stock may compress in use creating a thinner shim than expected. A nut shim acts as a spacer between the nut and neck raising and lowering the distance of all of the strings at the headstock end. A neck pocket shim acts as a spacer between the neck and body, changing the angle from which the neck protrudes out away from the body. First determine if the distance between the strings and fretboard is too close either at the headstock end of the neck and remedy this if so. This can be determined by fretting the strings at the 3rd fret (or fitting a capo) and measuring the clearance between the first fret's crown and the strings. In the case of the string clearance being too low under the first fret, progressively add shims under the nut until a clearance of at least 0.005"/0,13mm is achieved with the strings fretted as described. You can now fret strings at the first fret (or move the capo here) and adjust the bridge height until the strings are a more equal distance from the fret board down the entire length of the neck. If adjusting the distance between the strings and the fretboard at the body end requires an excessive correction in bridge height you can place shims in the neck pocket to create a more appropriate neck angle and correct this problem. If the strings are higher on one side or the bridge sits at an uneven angle side-to-side, placing a shim in the neck pocket parallel with the length of the neck on the respective side raises the entire neck down that side when the neck is reattached. It is important to check that the neck does not possess any kind of twist or warp as this cannot generally be corrected through simple adjustment/shimming and will require professional repair. If the bridge is set too low in the body a shim can be fitted at the back end of the neck pocket (the end nearest to the bridge) to increase the neck angle. The opposite approach can be taken if the bridge is set too high on the body. A slice of veneer cut to cover the entire surface of the neck pocket can be progressively sanded thinner at one end to achieve a more permanent angled shim however creating layered paper shims is often more than adequate. In some instances you might find that you need the shim to raise only one corner of the two planes as described above. In these cases make a smaller shim and place it in the appropriate area of the neck pocket. Of course upon removing the nut from the neck or the neck from the body, if you find a shim already there determine what action it was doing in the first place then make the necessary corrections using as few shims as possible.
  11. As I have worked on my “relic obsession” (and make no mistake….it IS an obsession!) One of the biggest challenges that I had was figuring out the best way to get that ambered 'vintage' look. The goal I was shooting for was that of a ’62 Strat neck & the color of the headstock & back of the neck (I wanted to start with a rosewood neck first. I plan on tackling an all maple neck at a later time). The target neck has this cool brownish-goldish-amber finish (that’s quite a mouthful!). I wanted to make it look authentic; not only in color…but REAL vintage necks bring out the grain of the maple. The most common way to TRY to achieve this is for people to add amber to their clear lacquer. It looks o.k…but as I stated before I have a RELIC obsession & “o.k.” is just not good enough!! Also, the “amber-clear” technique actually MASKS the wood grain! Think of it as having plastic wrap over your Television screen….you can still see the picture, but it just isn't right! Well…. here is my technique on how to make it RIGHT: The first secret is that you have to stain the wood, not the finish. This is the ONLY way to really make a neck look like it came from 1962! Here’s what I did to create the “secret sauce”. I used ColorTone concentrated liquid stains from Stewart MacDonald. The colors you need are Yellow, Red & Tobacco Brown. The mix ratio of yellow, red, and brown water stain for "vintage maple" is more art than science. I eyeballed it & had good results BEFORE YOU START!!! YOU NEED TO USE SCRAP MAPLE! Don’t put this stuff on ‘till it’s how you want it to look on the scrap! You don't want to test it on paper, it will just soak it up & not give you accurate results. Now for the secret ingredients.... Start with full strength yellow in a bowl. Add warm water until the color isn’t too strong when wiped on your piece of scrap maple. Then add little drops of full strength brown and red to “amber” it. When you think it's right, test it on your scrap maple & put on the clear lacquer. Remember, it won't look right until it's sprayed with clear lacquer. If you REALLY want to bring out the grain, you can stain the wood and then sand most of it off again. The grain will hold the color & the rest of the maple will sand back to natural. For an even more DRAMATIC effect, try it with black or silver stain to really make the grain stand out. Then, when you wipe on your final coat of stain and don’t sand it off, the grain is like 3D & comes right out at you! This technique looks GREAT on a birdseye maple neck! You can wipe stain on with a clean rag or by spraying. I think it looks better & is far easier wiping it on. Once you got the color, clear & results you were looking for on the scrap, repeat the process on your neck! I have used "the REAL Vintage look" technique for refinishing a vintage neck AND for making a new one look old! You will be amazed at how much better this looks, especially if you compare side by side with a neck done with the “Amber-Clear” technique! Here are some tips: This technique raises the grain of the wood. Before you start staining make the wood damp to raise the grain. After it dries, sand off the rough spots with fine grit sandpaper.To avoid streaks wipe with the grain (lengthwise)For best results, let the stained wood dry at least 48 hours before applying clear.PRACTICE ON SCRAP!! I used an old maple baseball bat & got very good results (I guess that would make it a “Batocaster”)A Little ColorTone goes a VERY LONG WAY!!!WEAR Gloves! Otherwise you will "relic" your hands for a VERY long time. Please, trust me on this one!
  12. Contrary to what many people believe, a dead straight neck is not the most desirable aspect of an instrument set up for playing. Due to the distance a vibrating string moves (deflection) the neck requires a small amount of upward bow to prevent the strings from buzzing on frets. Adjusting the balance between string tension (which bows the neck upwards into "upbow") and the truss rod resisting (or assisting) this pull, the player can have control over the playability of the instrument. This guide was written from the perspective of setting up a fast-playing instrument with a precise low setup such as an Ibanez RG/JEM or other similar instrument. Different players and their respective differing styles may require marginally different measurements dialling in to those quoted. A little on truss rods.... In their most basic form, a truss rod is designed to add stiffness (or "resistance to bending") to a neck under string tension. Originally, they were simple non-adjustable reinforcement bars set into the neck. Gibson introduced the first adjustable rod which was set into a curved channel. When the adjustment nut was tightened, the rod tried to straighten itself out, taking the neck with it. These single-acting rods are surprisingly effective and reliable when installed correctly and well-maintained. Double-acting rods are a much more flexible device which allow the corrective force of the truss rod to act both against and with the tension of the strings, carrying the neck both ways if required. Other rod and neck adjustment methods exist, however the fundamental purpose is to give the owner (or tech) control over how the neck bends in use. "I heard that a straight neck is ideal...." For the most part, it is! A bendy pretzel neck is no use to anybody. However, it has to be borne in mind that strings need room to vibrate. A surgically-straight neck can produce ultra-low action, which is great until you come to playing it. String buzz is a BIG problem! The ideal neck shape is one that has a very mild curve upwards. That simple small amount of "relief" gives strings room to breathe whilst still allowing low action in the upper positions. Note! This tutorial makes a few assumptions which you need to be confident about checking before using these techniques. Most importantly, it assumes a neck that is well-made and has not warped; that the fretwork is straight and even with no humps and dips beyond the usual curvature of a neck. These are not problems that a truss rod adjustment alone can remediate and should be fixed first. With some single-acting and vintage Rickenbacker-style rods it is possible that these steps may not correct all necks. If you are attempting to adjust out a back bow where the neck is bent backwards into a convex shape (you are unable to seat the straightedge onto the first/last frets) and adjustment leaves the truss rod nut loose (string tension alone does not induce forward bow) the neck will likely require professional adjustment or more risky methods of forcing the neck into shape. Simply, the bow in the neck has also bent the convex truss rod channel straight or beyond into a concave type of curve. Tightening the truss rod in this condition will make the back bow more severe rather than doing what is otherwise expected. By all means head over to the forums or consult a professional tech for advice if this is the case. Inspection Firstly, the neck needs checking as to whether or not it has a suitable amount of forward/up bow. This is done by placing a steel straightedge (or similar item with a dead straight edge) lengthwise down the center of the fingerboard between the 3rd and 4th strings, with the guitar tuned to pitch and in the player's position. "Player's position" is how the guitar would be oriented if it were sitting in your lap for playing. If you try this procedure with the guitar flat on its back or other orientation, the neck may not be in it's natural position. Gravity acting on the mass of the neck and the headstock can cause it to bow marginally into a different position which throw off the measurements you are trying to gauge. If you prefer working on your instrument laid on the bench, that is fine also however it's good to know why an instrument might start acting slightly different once picked up and played normally! Ensure that one end of the straightedge is touching the center of the first fret and the other is touching the center of the last fret. Using a feeler gauge (you can purchase one of these at most automotive stores) check the clearance at the 7th fret. If there is less than .005"/0,13mm clearance, the truss rod will need loosening in order to reduce its resistance to string tension, thereby increasing the amount of neck relief present. If there is a larger clearance then the opposite is true; the truss rod will require tightening to increase resistance and decrease neck relief. If you do not have a straightedge to help you check the neck relief you can either use a capo at the 1st fret and manually fret the strings at the last fret (or have a friend hold down the strings at these frets) and use the strings themselves as straightedges. If you do not have a set of feeler gauges you can use a thin piece of cardboard such as a playing card to measure clearance under the strings. The card should barely slide under the string without lifting it. Tightening or loosening of truss rods should only be carried out in small steps. Sensitive truss rods can sometimes require a small fraction of a turn to significantly alter neck shape. Additionally, it can take some time for the wood in necks to "move into the new shape" and reach equilibrium....don't go cranking on the rod if it doesn't co-operate immediately! A rushed setup may yield the correct clearances initially, however necks may continue to move over a longer period. Patience more than pays off when dialling in the perfect setup! An hour between truss rod adjustments is satisfactory with a whole re-check of the neck the following day is good practice. Should the clearance be too small, the neck is too straight. If the straightedge is unable to sit over the first and last frets, the neck is in fact bowed backwards ("backbow"). Both of these situations require that the truss rod nut be loosened by turning it counterclockwise. Do this gradually as described previously and recheck the clearance each time, allowing the neck to resettle as appropriate. If the clearance at the 7th fret was more than .015"/0,13mm you will need to tighten the truss rod by turning the nut in a clockwise direction. Remember to move it in fractional increments (less than 1/8th) as it can move significantly with each adjustment; recheck the clearance each time after the neck settles. Below you will see pictures of the common types and where the truss rod nut is located. On many guitars you will find the truss rod nut located underneath a cover on the headstock. View of a standard Allen wrench style adjustment truss rod For some guitars you will find the truss rod adjustment on the other end of the neck which may mean you will have to remove the strings and take the neck off to make an adjustment. This does mean that you will not be able to make the adjustments with the neck under string tension or in the player's position. Plan adjustments ahead before removing the neck! Heel end truss rod adjustment In the case of spoke wheel adjustment nuts at the heel end, it is possible to adjust the rod using a screwdriver or Allen key by parting the 3rd and 4th strings to gain access to the wheel. The two most common style of truss rod adjustment tools are Allen wrenches and barrel style socket wrenches. If you're adjusting the neck on (for example) an older style Strat neck at the heel you may need to use a flat bladed screwdriver instead. Always check that the tool is the correct size before applying force; a stripped or broken adjustment nut is a far greater headache than a badly set up neck! Step 1: Introduction and headstock area Step 2: Trussrod and neck bow adjustment Step 3: Nut height check and adjustment Step 4: String height and bridge adjustment Step 5: Adjusting the intonation of a guitar Step 6: Adjusting pickup height
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