Steel inserts on titanium lockfaces, are they necessary?

Discuss Spyderco's products and history.
colin.p
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Re: Steel inserts on titanium lockfaces, are they necessary?

#21

Post by colin.p »

gdwtvb wrote:
Thu Sep 06, 2018 5:11 pm
Personally I see this as another example of a 'virtual problem' that has cropped up in the age of the internet.
"snipped"
Buy what you like from a major manufacturer and I doubt you'll have any problems.

Grizz
Thank you, couldn't have said it any better.
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Re: Steel inserts on titanium lockfaces, are they necessary?

#22

Post by Gsg9 »

"Personally I see this as another example of a 'virtual problem' that has cropped up in the age of the internet."

Spyderco would not add a steel lockbar insert on some models if they knew that there are no potential issues

Because that process of adding the insert costs them something extra and no company would spend extra for no reason unless they want to go bankrupt

How they decide whether to add it or not is probably based on lockbar thickness/geometry and their internal testing before releasing and they do have experience with this

And there's lockstick, lock rock

https://youtu.be/o7MYHQV0cPQ

https://youtu.be/cwFwIeadL3k

Chris Reeve added an overtravel stop on Umnumzaan, not for fun, 4 being trendy and to spend some extra dollars but because he probably got back on warranty lockbars that were overextended, if you don't do that to your framelocks doesn't mean that somebody else didn't...

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Re: Steel inserts on titanium lockfaces, are they necessary?

#23

Post by Zenith »

I have not posted the below in a long, long while and some links might be broken, but here goes for those interested in learning more on this lock.

My framelock post

This is a compilation of resources and discussion on angles, lock interface, steel vs. ti etc. that I have compiled over the years.

Here are some comments from a very well and respected maker on the forums that has tested numerous locks. I will not post his name as this was a private conversation and let’s keep it that way.

"I've done some steel inserts in mine. The wear rates are not far off from titanium to steel. Both wear very well. Heat anodizing helps to form a deeper near ceramic hardness on the titanium since heating it by a torch anodizes the ti from the inside out as opposed to using a DC current which is from the outside in or the outside layer only. That ceramic hard oxide layer wears pretty well against even the hardest blades. If it didn't people would have stopped using ti a long time ago.

The real factors as I see it is impact strength not wear resistance. In my own testing for Kershaw and other companies that sent me product to beat the snot out of on their behalf I found that the steel frame knives held up better to sudden shock impacts like spine and overstrike whacking as opposed to the softer ti which could indent easier and deeper scarring the surfaces more. So to me this is the key factor behind it but there is a draw back since steel is less forgiving than titanium. Ti tends to gall or stick to itself and dissimilar metals and this sticking effect has been seen forever by makers as a real benefit.

Not to sound bad but you can be off some on contact angle and get by with it by using ti since it can make up for your short fallings here whereas steel would just slide right off the contact. Steel will demand the contacts be spot on and if they are not well, you'll see locks sliding off the contact toward release easier than ti when the contact angle is not right.

I've used inserts of steel in a couple folders I did a while back. To me having to do them the way I did they were more trouble than they were worth. Most of my folders give me very little trouble as it is. However, I am low key and not selling what is being marketed as a 'hard use' knife either. We'll see how long this lasts but it could be the beginnings of a trend in the hard use category if people start testing them and find they hold up better. It will depend on the steel used. I really fail to see much benefit if the steel they are using is just 410 stainless at 45 Rockwell. Ti is 39 Rockwell or so and although softer by quite a bit technically it wears at such a slow rate that in normal use most folks are not going to notice any diff or benefit to this insert at all. It’s just the guys beating on them that will pick up on it probably.
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Re: Steel inserts on titanium lockfaces, are they necessary?

#24

Post by Zenith »

Now that goes to another issue. What happens when the insert dislodges or falls out? The screws will have to be very secure for some of these guys beating on them and if they think the knife is supposed to take it they will do that. Again time will tell. My thoughts are that overall there are some benefits from the stand point of repairs.

It’s much easier to replace an insert to refresh a lock that has worked its way all the way across the contact. This beats the **** out of making a whole new lock or peening the contact like Emerson, Kershaw and many other companies do to repair theirs. Don't get me wrong that’s an old cutler trick as old as the liner lock itself and it works. Heck many makers do it as a part of the process along with heat treating because they believe peening compresses the molecules making it denser so it wears better.

The point is that is not as precise as people like to be whereas a new insert would be, well, new and just like it was before theoretically. It may even be something the user can do themselves in the field or at home. We'll just have to see how this develops. "

:Peening the contact is a technique used by cutlers to 'refresh' the actual physical contact area on the lock where it connects to and wears against the blade in use. Since the lock is technically supposed to connect and support the blade at the bottom of the lock at the point far enough away from the mid line of the pivot barrel or pin to prevent 'blade roll', (bottom being the area many refer to as the top since its up by the thumb grooves where one depresses the lock to release and free up the blade to close it. Think bottom of the blade when opened and that is technically the bottom of the knife and the where the edge runs with the spine of the blade when opened being at the bottom running along the full length of the folder)

So again since the lock connects at the bottom you have a triad or three points to support the blade when opened. The stop, the pivot in the middle and the lock. If the blade connected to the lock more in the middle or at the top of the lock down where the detent is on most then you would experience blade roll. This is when you have vertical type play but what happens is the blade actually rolls on the lock because the lock connects in the wrong place.

The lock should also be flat not angled at a pitch like the contact is on the blade. Some makers make them and the blade is not quite right so they adjust the lock to fit the blade instead of the blade to fit the lock. This is incorrect and it can cause a 'stepped' or angled pitch to be formed on the lock and that in conjunction with a pitch on the blade is a sure fire way to lead to lock defeats.

When a lock wears and works its way across the tang to the opposite side liner or when it develops blade play many times the maker or the manufacturer will correct this not by bumping up the size of the stop pin but by peening the contact area. This again if you picture it is the area showing signs of wear marks on the lock itself and it should be somewhere on the bottom third of the lock far enough from the mid line of the pivot to make a rock solid contact for no play in the blade. Peening means a ball peen hammer and a 3/32 flat end punch placed precisely at a the area just to the left of the contact on a right handed knife. You swing the hammer hitting the punch so it physically 'squishes' out the contact more toward the blade. When done this creates a little 'bubble' sticking out just a few thousandths of an inch and it refreshes the contact as well as compresses the material. This can be done on steel, ti or brass locks and requires different touches or pressures to do it right. It’s been done on compression locks and lock backs also to peen the usually softer area of the rocker arm just a micron or two to adjust the lock for fit before they ship it out the door.

Anodized ti is usually surface only. Heating with a torch usually brings the ti lock contact up to a straw colour or at the least a cherry red orange colour. Letting it cool on its own and repeating this three times builds up quite a bit of anodizing that at times can be resistant to even bead blasting it off and it can harden the metal to the point that it is much more wear resistant in that spot that was heated. Most are done and then blasted afterwards cleaning off the surface that is seen. Others simply don't treat it knowing that titanium is technically a 'self healing' metal that creates an oxide layer on its own as soon as fresh ti is exposed to oxygen. This is true by the way and why ti is resistant to all kinds of corrosion. It’s that oxide layer that forms a barrier between the ti and the atmosphere sealing it off that makes it so resistant to it. Heat and electric current simply stack on layers of this seal and the light refracting off those multi layers is why we see colours. You actually would have to read some of the tech manuals on that to get the full jist. I'll stick with a nut shell description.

Correction. Steel would probably have been dinged also just not as bad and this depends as you said earlier on type of steel, how hard it was set at and so on. Steel as I said requires that things be just so. I repair a lot of knives and most are liner type locks of the thinner type. These wear and indent and even in steel. They also of steel tend to be easier to find fault in contact angles. For example you see a few knives with steep pitch angle contacts 12 degrees or more and to try this with steel will surely cause the locks to defeat with a sharp tap to the spine. Most steel locks need a pitch of 7 to 8 degrees max to work. 10 or above is really pushing it and even Spyderco walks that fine line at times as I see plenty of Military folders with locks that slide toward release back to the flatter area on the blade contact. This with simple spine pressure from my hands so there is no telling how that would go for the user if it was a sharp blow to the spine. "
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Re: Steel inserts on titanium lockfaces, are they necessary?

#25

Post by Zenith »

"Correction:

Peening the contact is a technique used by cutlers to 'refresh' the actual physical contact area on the lock where it connects to and wears against the blade in use. Since the lock is technically supposed to connect and support the blade at the bottom of the lock at the point far enough away from the mid line of the pivot barrel or pin to prevent 'blade roll', (bottom being the area many refer to as the top since its up by the thumb grooves where one depresses the lock to release and free up the blade to close it. Think bottom of the blade when opened and that is technically the bottom of the knife and the where the edge runs with the spine of the blade when opened being at the (insert TOP not bottom as I said) running along the full length of the folder) Even I get confused. Lay people often mean top when they mean bottom and bottom when they mean top because these two points are confused.

The point is the lock should connect at the bottom third of the lock and nowhere near the pivot mid line or top. "

And here are some other comments from me and my opinion.

For those like me that like the theory

A recent few posts I did regarding frame locks, but many of the same principles apply to liner locks geometry.

"There are a few things I want to cover, based on my talking with custom makers and reading Bob Terzuola's book: The Tactical Folding Knife (hereafter BT), where he explains in detail the aspects of a good liner lock and the same principles are applied to framelocks.

Three points of contact:
1. Stop pin
2. Pivot pin
3. Interface between blade and spring (ie, lockface/lock engagement area hereafter referred to LF) Spring is also the liner lock, framelock.

This forms a triangle.

Now, the LF is the area let’s focus on first.

BT. refers to the angle of the lock face to be between 7.5 and 8.5 degrees. Les then 5 degrees and the spring will jam. More than 10 degrees and the spring will start slipping off the LF.

Now the start of a radius lock face, the maximum therefore cannot exceed 10 degrees or else the lock will start slipping when the lock wears to that point. As mentioned as lock rock in the video when referring to the Strider (http://www.youtube.com/watch?v=VUoVPLirWg8)

Now.

Do not thing the angle plays the only role in the lock slipping. The finished LF can have a rough spot, not be polished enough, the spring's interface between the LF can also play a role.

Let us examine this from the Emerson website.

http://emersonknives.com/blog/emerson-knife-anatomy/

If the LF connected to the spring more in the middle or at the top of the spring where the detent is on most (point nr 3 closer to the pivot pin nr 2) then you would experience blade roll. This is when you have vertical type play but what happens is the blade actually rolls on the spring because the spring connects in the wrong place with the LF.

The picture shows the extremes of the different designs; you can have a lock that engages more than the bottom 0.90-.125" of the spring. Chris Reeve has proven this, but, you can also have a knife that engages only on that bottom 0.90" (point of contact in the picture)

Not every lock is the same. The basic ingredients are the same, but the final application is what the maker chooses. This can be seen even with Spyderco difference between the Military and the Gayle Bradly.

Now that is just the geometry of the lock.


The spring itself if it is Titanium can be heat treated or carbonized. Strider and Hinderer do the latter. This helps tremendously with wear on titanium and if done right will last you a life time. CRK and a few custom makers that I have do Heat Treating of the lock. Wear is about nun and equal to (if) steel was used.

HOWEVER. Titanium is NOT PERFECT and it can have flaws in it when received from the supplier. EVEN aerospace titanium (grade 5 titanium). These flaws only become apparent when it is used and is sometimes not even noticeable until it begins to form a problem. This is where a good warranty comes into play.

Steel used as a liner is not always the answer as well. Different steel interfaces can result in slipping. Steel on steel requires a lot of research to find what can be used and heat treated as a spring and still provide excellent wear resistance and safety.

Finally, lockup percentage is a strange thing and depends on the final user. I prefer later lockup as it usually means less chance of slipping off the LF.

I hope this helped you in some way."

At the end, if you either use Ti or Steel, the LF geometry is key.

I have Ti lock custom that I have flicked vigorously, the maker asked me to test the lock face.

BT also writes in his book there is no significance between steel and Ti if done right. A Sebenza will wear for a while and then stop. Most quality locks do this. Chris Reeve also wants a later lockup as
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Re: Steel inserts on titanium lockfaces, are they necessary?

#26

Post by Zenith »

he feels it provides a safer lock and less chance of slipping. I tend to agree. Besides. If any quality product wears out so fast, they should cover it under warranty.
Chris Reeve Knives;7284330 wrote:This thread was brought to my notice so I thought I would make a couple of comments. We do not recommend that anyone adjusts the tension on the lock bar - i.e. pushes it one way or the other. The result of doing this will probably be blade play. When Clay told Rickster "...To repair the condition all they due is disassemble the knife & bend (Tweek) the lock-bar a little at a time..." you have to bear in mind that Clay and Thomas, who are our two assembly guys, do this all the time and they are trained to recognize a variety of other factors that go in to perfecting the lockup. The tolerances around the lock/pivot area are sufficiently close that if you move one thing, another is going go out of whack!

No doubt some of you have "tweeked" your Sebenza locks with no resulting blade play - that's been fortunate! We still would prefer you send the knife back to us if you are not happy with the lock. Our recommended tolerance is 50-75% - if it goes over further, and there is no galling or blade play, that is even better!

BTW - a technicality: as much as we enjoy having Clay on our staff and how great a worker he is, he is not the Shop Foreman!:)

Anne
I have seen a 18 year old Sebenza. No issues. I have a Military with the steel insert. No issues. Both locks apply different end results, but the basics are the same resulting in great locks that can last you a live time.

BT also feels that the strength to weight ratio of Titanium is excellent compared to steel.
Zenith;749285 wrote:Not really. The routing that is done is to make the disengagement for the user more comfortable. STR has made Ti framelocks without any cut-outs (routing) because the user wanted it only to have it returned later on because the user complained it was too difficult to disengage.

The cut-outs (routing) also provide a "safe burn" for those "accidental moments" when the lock does fail due to excessive force on the blade.

An Emerson HD-7 showed this perfectly.

Image

http://strsbackyardknifeworks.blogspot. ... older.html

In short

"Contrary to how many readers may feel about that picture above. That my friend is a design that deserves praise for defeating the way it was engineered to go. That HD7 above did its job and so did the designer/maker of the knife. I doubt any sutures or ER trips costing great amounts of money were needed with that defeat. We should all pray to be so lucky should we be the on the unfortunate end of a defeat ourselves one day."

The cut-outs are the weakest link in a Framelock IMO.

I have been surprised by some framelocks. A Kershaw vapour that I had would disengage with some force on the spine when not held in hand. When I gripped it the lock did not move as ones fingers actually force the lock in.
Zenith;749294 wrote:Titanium that is used in framelocks has to be at least grade 5 quality. It has natural spring tension if I can remember correctly.
Zenith;749554 wrote:Dwayne

Emerson knives start live out so early because it is the Mr. Emersons personal choice for his locks. I know of custom makers that also do this.

However, in my experience it is Ti liner locks such as Emerson knives (and there are many others that also do this) that are not heat treated or carbodized lock faces of the springs that tend to wear much faster. In these locks the geometry of the lock has to be as close to perfect as one can get.

Chris Reeve.....well this is interesting because he is credited as the father of the "framelock" or R.I.L.

The reason why his knives do not really have a break in period, or if it has it is very little is one thing: Tolerance.

CRK also does what I feel is good practice in that they adopt the blade to the spring, not the spring to the blade. In other words, when they fit a blade to a lock, they have multiple handles that are pre-assembled, checking in which handle the blade fits best and then if required they grind the blade LF area to mach the spring. They never fiddle with the spring or springs LF area after it has been heat treated and bead blasted to match the blade. This is good practice IMO and great makers do this.

The only real advantage steel has over Ti is not in its wear resistance, but IMO in its impact resistance if one wants to beat the :spyder: out of the spyderco or other knife.

(I wanted to ad that my knowledge is not perfect and if any maker wants to correct me I am willing to learn, I am just sharing what I have learned from makers and books)
Zenith;749571 wrote:It does not really matter if the company is Emerson or not, the quality control needs to be good and with whatever company there have been a few melons going through. This is wear warranty comes into play.

The thing why Emerson knives wear so fast is due to the wave feature. If you wave that knife 20 times a day at full speed then the lock will wear faster.

The second question I don’t fully understand, could you elaborate on it a bit before I attempt to answer it in full?

If you are referring to why CRK knives start locking up at 50%, that is his preference (mine to) and the LF is designed and executed that way.

The initial wear on a CRK is minimal due to the close tolerances on the LF and the entire knife. However, sometimes there is a rough spot on the LF that just wears smooth and the lockup will increase from 50%-60% within a few days, or weeks, but after that it would wear very slowly. CRK wants the lockup to be between 50%-75%, but this is different on the Umnumzaan. On the Um it looks closer to 90% but it is actually 75% and I have yet to hear a complaint about the Umnumzaans LF or geometry.
Some imagery
GarethBull;11923 wrote:^ Nice post bud :) That zone of 7.5-8.5 degrees really is vital. For those of us visually inclined:

Image
Comments from well-known custom maker Des Horn
Des Horn;11955 wrote:I do not believe this is wear.
In my view this is "setting" of the face to a perfect fit against the blade, and once there it does not move.
This is a really great thread giving lots of advice to the novice makers.

Now, there is also been some good testing and evaluation done by Kyle Harris (cKc Knives) from new Zealand discussing blade play vs lock security. In short, though we think blade play is bad, making a truly dependable lock in the framelock/linerlock conversion requires some blade play.
Have a look at these videos:
http://www.youtube.com/watch?v=7I3fJVL3DT4

www.youtube.com/watch?v=M2cZQv5cIqQ
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Re: Steel inserts on titanium lockfaces, are they necessary?

#27

Post by Zenith »

You can see from the videos that even with blade play a lock can still be very secure, very reliable and would require the entire lock to self-destruct in order to disengage.
http://www.youtube.com/watch?v=A2f5h9zFQvE

Real interesting comments from Gavkoo on the folder of Kyle and what makers such as Bob Terzuola said about bladeplay being a thread for the specific market, yet there is nothing wrong with the design.

People presume that blade play is bad, but not for a reliable lock. I would venture and say that the Victorinox soldier will only fail if there is a catastrophic failure of nature, same as the Tri-Ad. Under static load, the soldier might even surprise the best of us.

Interesting thing on how durable a liner can be:

http://www.youtube.com/watch?v=-MxCDbAW638
I hope this can be useful and educational to some. I know I went a bit of topic... from steel vs Ti, but you have to look at it as a whole in my opinion :)


One of the best ways I have seen to test a liner/framelock for any issues is to do the following (this was posted back in 2007):
STR;368958 wrote: Now to the test method I prefer. I recommend standing with the knife like you see me holding an Emerson liner lock here in the link below. But I also recommend you make sure the lock is getting behind the blade at least to the full thickness of the liner itself before doing this test if you are carrying a thinner liner locking folder. However even on the thicker liner locks and frame locks doing it with barely any lock touching the blade to make contact can possibly shear or ding in part of the lock making it either unsightly or worse so the lock should be at least 50% behind the locks on these thicker lock styles if you ask me.

I've shown this test to people that have carried liner locks for many years thinking they walked on water (as I once did also) only to see their faces when they pushed up on the spine of the blade while securing it just as I'm doing here in the link below only to see the lock slide off the ramp interface and allow the blade to close on their very trusted knife and sometimes surprisingly with very little pressure at all. If the lock even moves at all in this test its not good. You can candy coat it all you want but its not good. A surprising number of knives tested this way fail surprisingly easy. If your lock moves a little but doesn't fail on you from this test, well you have to decide then if its one you want to just use knowing this, or send it in to who made it for evaluation or if its just time to retire it. The reason I say this is simply because of this thought. Just because it moved a little and didn't defeat with the pressure you could muster with this test doesn't mean that a stronger man, or more pressure from an extreme use of the tip won't cause the blade to close on your fingers. Only you can decide on the action you take at this point. And in fact if it moves or defeats you can decide then and there if you want to continue on or mail it for repairs at that point for the professional to look at.

You should do this with your lockback and axis lock folders, and all other 'locking' folders too on occasion as well as check the lock mechanisms for debris, pocket lint, damage and if they have springs check their condition as well unless you can't see them of course. Small spots of corrosion, or thinned weak looking areas on springs should be dealt with by a qualified repair pesron promptly when it comes to securing your fingers..Injury from a sharp blade closing on fingers can lead to serious incapacitation for a lengthy time, numbness or loss of other sensitivity in the fingers, tendon damage and lots of blood loss. Don't risk it out of blind faith.

Hold your knife so if the lock defeats you won't get cut just as I'm doing here in the link. You owe it to your fingers to know not suspect or blindly trust that the knife was made correctly. You don't have to cock your wrist as I did here. I'm just doing that for my wife to get it in the shot easier. Hold it with both hands and using your strong hand with the blade resting on that index finger knuckle simply push up on the spine of your blade holding the body tight so its steady.

You can spine whack your knife if you just believe it causes no damage. But don't be surprised if when you find that it does in fact fail tests that the company doesn't cover the warranty due to the damage it caused to your folder on the inside. I'll leave your decision up to you when and if you cross that bridge.



STR
Image

Umnumzaan design:

The ceramic ball lockup is supposed to look late, but in in reality is not.
peppercorn;10013751 wrote:Some of you wanted to see macr shots of the Umnumzaan after seeing the Sebenza shots in my other thread and,well, with such awesome feedback how could I resist.
So in no particular order here they are....let me know what you think.
Also, I was shooting outside and as luck would have it it started to rain and so you may see a drop or two of water in some of the shots. Luckily it's all stainless!


Image


Image
Added a little canned air to the perforated washer while trying to combat the rain drops and inadvertantly created a 'spinner'.

Image


Image
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Re: Steel inserts on titanium lockfaces, are they necessary?

#28

Post by Zenith »

Image[/QUOTE]

"Those who have followed the nearly 25 years that the Sebenza has been around know we continually make small improvements, alterations, advances to our knives. None of these changes are made to follow a trend, to keep up with the Jones or to tick off our customers. They are done to improve performance, safety or production. That we make a change to the Umnumzaan should not come as a surprise.

The disc has been added to the Umnumzaan to prevent the reduction of tension on the lock. Because the shape of the Umnumzaan handle is a little different than that of the Sebenza, it takes a different technique to open and close. We have found some customers are not willing to learn the difference or perhaps they don’t recognize the difference but, whatever the reason, they think it is necessary to modify the lock tension, thinking the knife will open more easily. This simply makes the knife unsafe. We have had several Umnumzaans returned to us because of lock issues – almost always the customer denies having modified the lock. We can see what has been done, and are put between a rock and a hard place as we don’t want to call out the customer for not telling the truth. The disc is a solution to prevent potentially unsafe modifications.

Please note this disc is not a lock stabilizer as it has been called in some posts. It is simply in place to prevent the lock bar from being pushed out to reduce tension. Our locks are fitted properly to very close tolerances and do not need to be stabilized. And to save further speculation, the disc is press fit into the handle. It is made of 303 stainless steel, and is sandblasted along with the rest of the handle. Because it is not titanium, the sandblasted finish looks different.

Will it change further? Quite possibly. What might these changes be? No idea at this time.

It will be a while before you see Umnumzaans other than the Wilson Startac with this disc. This has to do with our on-hand inventory of machined handles.

We are not planning to add the lock override protection disc to the Sebenza. We do not have the issue of lock modification by customers to the same degree as we do with the Umnumzaan.

Before the question is asked here is a quick reminder of the difference in how to open an Umnumzaan and a Sebenza.
Umnumzaan: slide your thumb straight forward, parallel with the handle, pushing the lug with the top center of your thumb.
Sebenza: push the lug out sideways in a sweeping motion with the side of your thumb.

Since there has been renewed discussion about Idaho Made in this thread, you might find it interesting to note that since March this year, the value of our back orders has almost quadrupled. This would indicate there are not too many concerns about the Idaho Made marking.

We appreciate your loyalty and enthusiastic conversation. We know we can't please all of the people all of the time!

Anne"
Chris Reeve;9466444 wrote:You will find that as you use the knife it will get easier to work with.The lock is designed like that so that if using under a stressfull situation with gloved hand the lock is not accidentally overcome,with use it will become second nature to you. Push down and out.
http://www.bladeforums.com/forums/showt ... light=lock

further searches:

http://www.bladeforums.com/forums/showt ... p-question

http://www.bladeforums.com/forums/showt ... -umnumzaan

And then the cherry on the cake from the thread: Some Words from Chris http://www.bladeforums.com/forums/showt ... from-Chris......


"The lock should engage at between 50% and 75% of travel. With the Umnumzaan, because the interface between the blade and the lock bar is a ceramic ball, it is the ball that must be at 50 – 75%. This will give the visual that the lock bar is further over than with a Sebenza."

I have yet to hear of a single lock with the ceramic ball interface that gives any problems. Since the release of the Umnumzaan, despite people complaints of it being "late" no one has had one wear out, disengage or develop any "sticky" lock. There has been only reports of people overextending the lock resulting in problems and from there the CR over extension tab/disc or whatever was applied.

So, in short. Dont mess with what works and use it. Also, a very important thing is maintenance. Maintenance of your knife for good, reliable and safe locking engagement is important.
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Re: Steel inserts on titanium lockfaces, are they necessary?

#29

Post by Zenith »

Added from:
http://www.knife-expert.com/liners.txt


THE LINERLOCK -- RIGHT FROM THE SOURCE

Michael Walker's invention and development of the LinerlockTM

by Bernard Levine (c)1997 - for Knives Illustrated


The "Linerlock" knife is now so familiar that it is easy to

forget that both the knife and the name are relatively recent

inventions. Michael Walker made the first modern Linerlock in

1980, and he registered the name Linerlock as a trademark in

1989. Since the mid 1980s, dozens of hand knifemakers and factory

knife manufacturers have made locking liner type knives inspired

by Walker's designs, although very few of them fully understand

either the advantages or the limitations of this mechanism. The

best way to understand the Linerlock is to look back at how

Walker developed it.



THE EARLY DAYS

Mike Walker began to make knives early in 1980. One of his

first customers was a collector and dealer in Red River, New

Mexico, named Don Buchanan. Mike made ten fixed blade knives for

Buchanan. Don asked Mike for sheaths to go with these knives.

Mike made those leather scabbards reluctantly, then announced

that he hated making sheaths. So Don said, "Make folders."

Mike did. He made slip joints. He made lockbacks like the

factory folding hunters then on the market. He made mid-locks

with mechanisms copied from antique folders. But he was not

satisfied with any of these. Walker envisioned an improved folder

that would do away with what he saw as the many limitations of

conventional lockbacks.

First, he would design a knife that the user could open and

close safely and easily with one hand, without having to change

one's grip, or rotate the knife in one's hand.

Second, his new knife would do away with the sharp "back

square" of the conventional pocketknife blade. When a

conventional blade is closed, its back corner sticks out, and can

snag the user's clothing. In some folders the back square is

enclosed by extended bolsters, but this can compromise the shape

of the handle. Mike envisioned changing the basic geometry of the

folder, in order to eliminate the problem entirely.

Third, and most subtle, his knife would be self-adjusting

for wear. Other innovative folders of this period, notably the

Paul knife by Paul Poehlmann (patented 1976), were very strong

and very sleek, but they required careful adjustment of set

screws to keep their blades from working loose.



THE LOCKING LINER

Mike was familiar with the old locking liner design patented

by Watson & Chadwick in 1906 for Cattaraugus. Used first on

traditional folding hunters, this mechanism became standard on

electricians' pocketknives, and was also used on Cub Scout

knives. In this design, the liner projects above the handle, and

it is split lengthwise, alongside the pivot pin. The side of its

narrow tip engages the front edge of the tang when the locked

blade is open.

Mike noted that only a thin extension of the liner could be

used as the lock in the Watson & Chadwick design. This was

because most of the liner had to engage the pivot pin, in order

to hold the knife together against the tension of the backspring.

The result is that this type of lock is inherently weak.

Mike went back to first principles. He realized that if

spring tension and lock-up could be provided by a liner alone, he

would be able to dispense with the backspring entirely. With the

back spring gone, he could then have the end of the liner cut-out

engage the bottom end of the tang, making for a much stronger and

more positive lock. Indeed it would be nearly as strong as the

old Marble's Safety folder (patented in 1902), while dispensing

with that knife's long, awkward, and fragile fold-up extension

guard (the folded guard serves as that knife's lock when the

blade is opened).



STRONG AND SECURE

As it worked out, Mike had not anticipated just how strong

his new lock would be. About 1984 I helped to run side-by-side

destruction tests of all the types of locking folders available

at that time. Each test involved securing the handle of the knife

without blocking the movement of its blade or spring; then

sliding a one-foot pipe over the open blade (which was oriented

edge downward), to serve as a lever-arm; and finally hanging

weights from the free end of the pipe until the lock failed.

Name-brand conventional factory lockbacks failed at between

5 and 7 foot pounds (except for one that failed with just the

weight of the pipe). A Paul button-lock knife proved to be more

than twice as strong as the best of the conventional lockbacks.

But a Walker Linerlock was nearly four times as strong as the

lockbacks. What's more, when Walker's Locker did finally fail, it

failed in the open position. Instead of closing suddenly upon

failure, as all the other knives did, it seized up and became a

"fixed" blade.



SELF-ADJUSTMENT

This strength turned out to be a fringe benefit of Walker's

self-adjusting design. He based this design upon the simplest of

all mechanisms, the inclined plane, or wedge. The end of the tang

is slightly beveled. The end of the liner is not (although it can

be, as long as the angles do not match). Both parts must be hard.

When the blade is opened all the way, the liner passes the inner

edge of the tang, but it is stopped before it passes the outer

edge. The liner's leading edge bears on the beveled end of the

tang. If the pivot joint loosens over time, the point of

engagement of the lock-up moves further along the bevel, so it

continues to lock up tight.

In the destruction test, when we applied an extreme load to

the blade of Walker's Linerlock, the free end of the locking

liner moved all the way past the end of the tang, and wedged

itself between the blade and the fixed liner. Mike was later able

to disassemble and repair this test knife, and today it is

(almost) as good as new.

In his first Linerlocks (he was not calling them this yet),

Walker made the liners out of spring-tempered 440-C blade steel

(he did, and still does, his own heat treating). The lock-ups

were not yet the full width of the tang -- Michael changed this

after the destruction tests, to make his knives even stronger.

The thick 440-C liners of those early versions applied so

much spring pressure to the blades that no other mechanism was

required to retain the blades in the closed position. But when

Mike began to experiment with lighter gauge liners, he realized

that a separate element would be needed to perform this function,

which is performed by the backspring in conventional knives. In

1984 Mike began to incorporate a ball detent in the frames of his

Linerlocks, allowing the liner to be dedicated totally to lock-up

in the open position, while the ball detent held the folded blade

closed.



TITANIUM

These new lighter gauge liners were made out of titanium

alloy. Titanium has many features that make it especially

suitable for this application.

- Titanium has a high strength to weight ratio.

- Titanium has superb spring retention qualities, without the

necessity of any heat treatment. A titanium spring will recover

from a severe load that would permanently deform a steel spring

of the same cross-section.

- Titanium galls to other metals -- it seizes to them, rather than

slipping past them, when they are rubbed together under tension.

This makes titanium useless for moving parts, but ideal for parts

that are meant to seize, such as the end of a liner engaging the

end of the tang of a folding knife blade.

- Titanium can be electrolytically toned to a wide range of

attractive colors. Michael and Patricia Walker pioneered the

application of this technique to knives. In fact Patricia Walker

was the first artist to engrave and anodize titanium, both on her

husband's knives, and on her own jewelry and artwork.



ADVANTAGES AND LIMITATIONS

Walker's Linerlock mechanism is flexible and forgiving in

many ways. In the 1980s Mike would go to shows with a box full of

unfinished blades that he had ground freehand in all sorts of

shapes. Customers would pick out ones they liked, and Mike would

then make knives around these blades, without any need for the

precise patterns that burden the makers of conventional lockbacks

and slipjoints.

However, one aspect of the Linerlock is not forgiving at

all. This is the bevel at the end of the tang, on which the end

of the locking liner bears. If this angle is too acute, the liner

will slip and the lock will fail. If the angle is too obtuse, the

liner will stick, and the blade will be difficult or impossible

to close.

Mike emphasizes that there is no single correct angle for

this bevel, as some writers have mistakenly claimed. Rather it

must be determined for each knife. The optimal angle is a

function of the blade and liner materials, of the spring tension

of the liner, and most important of all of the overall length of

the knife. The free end of the liner moves in an arc of a circle,

and the length of the knife determines the radius of this circle.



LINERLOCKS TODAY

Mike Walker rarely makes Linerlocks any more. He has

licensed the name, and various aspects of the mechanism

(including the patented safety latches recently developed jointly

by Walker and Ron Lake), to a few other makers and manufacturers.

On his own current knives he uses some of the dozens of other

locking mechanisms that he has invented over the years.

Mike is flattered that so many makers and manufacturers use

his invention, though he is disappointed that most of them fail

to grasp all the subtleties of the Linerlock mechanism. Because

of this, most of their knives lack the strength and smoothness of

Walker's own.

And Mike is angry at certain pompous Johnny-come-lately

makers who attempt to claim credit for his inventions and his

designs. One shameless maker is today receiving royalties for a

design that Walker created two years before that particular maker

assembled his first knife. But Mike never patented his original

mechanism or his early designs, so this sort of copying is now

water over the dam.

However Walker's trademark rights are another story. Mike

lets his lawyers deal with any makers or manufacturers who have

the temerity to use his "Linerlock" trademark without his formal

written permission.

*** END ***
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Zenith
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Re: Steel inserts on titanium lockfaces, are they necessary?

#30

Post by Zenith »

SuperGBoulder;8194102 wrote:I see a lot of knives are starting to promote steel lock face inserts or carbidized lock faces to supposedly prevent your titanium lock from wearing away from meeting the steel of the blade.

Is this really a concern?

How long would a non protected titanium lock face last against steel?

Am I at risk of ruining my $1000 flipper that does not have a protected lock face by flipping it repeatedly?

Thanks!
Ken Onion;8219705 wrote:If your knife is built right you won't have to worry about it. The lock will break in and shouldn't wear.
Some good work was done here to showcase the influence of lockbar cutout placement, however, it should be noted many knife makers etc have discussed this with engineers and in a knife the difference is negligible. If we were building massive structures then the case would be very different.
mastero747;8906657 wrote:Hey guys,

i played around with Solid works to bring some numbers into the discussion weather the cutout inside the frame or outside the frame is stronger and to which degree.
The frame is titanium al6v4. The cutout is 7 mm long and 14 mm wide with 1,4 mm remaining material. The force applied ist 100 N. (SI units ftw ;) )
As you can see is the stress (force/area) with the cutout on the inside two times higher compared to the cutout on the ouside. But even with this great amount of force applied is the stress very low so it is completly irrelevant in terms of construction.
"Streckgrenze" in the bottom right means yield strength which is the stress level above the material deforms non elastic.

The cutout inside:

Image


the cutout on the ouside:

Image


regards, Moritz
Added 2015

http://jgcustomknives.com/guthrie-tungsten-insert/


GTi LOCK:
The GTI lock stands for GUTHRIE TUNGSTEN INSERT. It features a Tungsten Carbide Insert fitted into the lock face of the R.I.L (Reeve Integral Lock) Tungsten Carbide is incredibly hard, achieving 90HRC on the Rockwell scale. This high hardness reduces lock wear greatly. A knife fitted with the GTI lock is guaranteed against any lock wear that will induce lock rock or vertical blade play.

LOCK TRANSITION:
This term refers to the maturing of the lock as wear takes place. The very small amount of lock wear (which now moves to the hardened blade) that could occur with the GTI lock has proved to be beneficial. It does not have the same detrimental effects as the lock bar wearing. Slope force is the sideways force the lock experiences when the blade is pressed against the lock. Increasing the incline on the blade lock face, increases Slope force. Increasing Slope force decreases reliability as the greater force wants to push out the lock bar, resulting in lock failure or lock slip. When a lock bar wears, it wears to the same incline it is being pressed against. In this case the incline of the blade. Slope force now increases and reliability decreases. With the GTI lock, the opposite effect happens. The Tungsten Carbide wears the blade to a shallower incline, which decreases Slope force, resulting in more reliability as time goes by.

Due to the nature of this exceptionally hard lock, it is not guaranteed against any spine whacking. Used as a normal cutting tool, this knife should never run out of lock life.



ROCKWELL COMPARISON:
Stainless Steel 25-34 HRC
Titanium 36 HRC
Hardened SS 58-62 HRC
Ceramic (Silicone Nitrate) 80 HRC
Tungsten Carbide 90 HRC

Image

https://youtu.be/9yiMtpbFspE
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Re: Steel inserts on titanium lockfaces, are they necessary?

#31

Post by Zenith »

Updated 2018, February.

Additional to the above based on Bob Terzuola’s and Michael Walker’s work Andre Thorburn has adapted a radius lockface, however slightly modifies it through manual adjustment to stop any lock stick from occurring. It is difficult to explain the process and I do not have permission from him to disclose additional information, but it proved once again for me, that geometry is key, above all else.
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