can a fella just ball park the torque on rod caps

Here is a list of the Proof Strength of some of the common bolts:
Grade Proof Strength (psi)
1 33000
2 55000
4 65000
5 85000
5.2 85000
7 105000
8 120000
8.2 120000

The above numbers are good to about a ¾ inch bolt.

You can then calculate the extension by dividing the Proof Strength by the Modulus and multiplying this by the shank length of the bolt (the distance between the head and the nut). The Modulus for steel is 30,000,000 psi.

Extension = Length x Proof Strength / Modulus

With a pitch of say 20 threads per inch and a desired extension of say, .075" you would calculate the turns required as follows:

20 threads per inch = .05 inch per thread (1/20)
.075"/.05" = 1.5 turns of the nut (540 degrees) to reach the desired bolt extension.

The turns of the nut start from a snug-tight condition which by engineering definition is "the full effect of a person using an ordinary wrench." For a 120 pound engineer it’s all they can do to snug a bolt, so for you big fellers, don’t get too crazy, leave off a bit. If the front wheels start sliding you done went to far, as my uncle used to say.

Now if your plane spins a bearing and crash lands on a deserted island, and you just happen to have another set of bearings, you could polish the crank with coconut peel and torque the bolts this way. However, using a torque wrench is well worth the extra assurance that the job is done right. (and if something would go wrong you could always blame it on a bad torque wrench) If not for anything else use a torque wrench for the sake of the poor engineer who spent about a day and a half calculating that torque spec for you with a slide rule, pencil and paper. Poor guy.

Let's see now if train A leaves point B at noon and train C leaves point D at 1:30 and ther both headed to Memphis, while train A travels at (34 x C)^(3/2) divided by the speed of light, will the trains collide? If the driver of train A stops at the railroad saloon for 15 minutes halfway through his trip and gets half cocked, how will this affect your answer? remember to take into account that his speed will be altered when he is in this state of mind..... .. ahhh gotta love taxes.

I would put it like this:

You may be able to get away with it.

But, the specs. are there for a reason. One of the main reasons..... most bolts come with a tensile strength (grade) meaning they are made for certain applications, and can be torqued up to, but not beyond a certain torque weight without breaking. . i.e. one bolt can be torqued up quite tight for it"s physical make-up, while another bolt of the same size but a softer material WILL BREAK OFF if tightened too tight. Torquing a bolt too tight WILL cause some stretching in the bolt which is not good as it weakens the bolt as it nears or exceeds it"s "graded torque value". This is precisely why you use a torque wrench in the first place, so as not to exceed the the intended torque and therefore render your poor little bolt useless.
One does not really have to go into what could occur if not enough torque is applied.
Do yourself a favor, if only for piece of mind, borrow, beg or steal a torque wrench for your rod cap job. You will be much happier in the end, plus you can stand with other shade tree mech"s and compare notes.

You and I both forgot to mention the insert crush. :>)

But, I agree. Doing it right is the only way.

Allan

'Course ya can put it together without a torque wrench. The wheels won't go square, the paint won't come off, the steering wheel won't go out of round and the engine will run just fine.

A torque wrench is just a tool for the guy who isn't sure how tight he is pullin' 'em and is a means whereby he doesn't have to guess.

A torque wrench would be better, but like a lotta other things in this old world, there is no "Torque Wrench Police".

You'll do just fine. :>)

Allan

If you're gonna put a new set of rings on an old piston against an old liner, then I'll stand here and argue with ya 'til its milkin' time. :>)

Allan