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Chevy 4.3L 262ci V-6 Engine Build

The 3/4 350. We build a Chevy 4.3L 262ci V-6 using V8 parts and technologies.

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We were more excited to buzz this turkey on the dyno than we usually are with some whumpin' big-block. Why? It's different. Not too many people build V-6s any more. Perhaps we found out why, but we still think it's neat-or at least cute. See, the '85-up Chevy 4.3L, 262ci V-6 is very much like a small-block Chevy minus the number 3 and 6 cylinders (check the valve layout and you'll see how we came up with that conclusion). They're common in '88-up trucks, and we still get so many letters asking how to feed a V-8 to an S-10 truck that this time we elected to answer the question no one asked: How do you get more wheeze out of the stock 4.3?

But first, a little V-6 lore. The units we're concerned with are the Chevy 90-degree variety, meaning that the cylinder banks are set at a 90-degree angleto each other, just like a small-block V-8. The bore centers (4.400) and deck height (9.025) are also identical to a Mouse motor. The '85-up 4.3L V-6 has the same bore and stroke as a 350 V-8 (4.000x3.480), and takes the same pistons, cam bearings, main bearings, valvetrain parts, timing cover, oil pump, and front dress. Any V-8 trans will bolt right up to the 90-degree sixer. The 4.3L has much more performance potential than the '78-'79 200ci V-6 or the '80-'84 229ci version due to those engines' small 3.500- and 3.736-inch bores (they're like mini 262ci and 305ci V-8s). Also, the 200 and 229 have semi-odd-fire cranks (132/108-degree firing), while the 4.3Ls are true even-fire engines. Not that 4.3s aren't still quivering little suckers, hence the introduction of a balance shaft in the lifter valley of 4.3s beginning in late '92 or early '93. The even-fire 4.3 cranks can be identified by their split-pin cranks-each rod pin is offset in the middle by 30 degrees. There are also common-pin V-6 cranks (they look just like conventional V-8 cranks) developed for the Chevy V-6's Busch Grand National racing days, but those are odd-fire units.

Like the Chevy V-8, the 90-degree V-6 saw some transition during production: factory hydraulic roller lifters, one-piece rear-main seals, and center-bolt valve covers all appeared in '86-'87. Just like a V-8, one-piece-seal cranks can be swapped into two-piece-seal blocks with commonly available adapters. The 4.3L has been offered with carburetors, throttle-body injection, and the current central-port Vortech injection that was introduced in '95 (we think) along with an intake-manifold flange that requires vertical bolts; as far as we know, a carbureted intake is not available for V-6 Vortech heads.

1 We began the 4.3L V-6 buildup with the knowledge that the pistons are the same as a 350 V-8's. Our pick was the Speed Pro LW2256-F-060, a lightweight forging (686 grams) with four valve reliefs with 6.1 cc of dish. The rings are Sealed Power R9902-060 file-fits set at 0.024 and 0.020, a bit wide so we can hammer this thing with nitrous and not worry about butting the end gaps. The V-6 is known as a shaker, so we had Dougan's Engine do a precision balance job.

2 The 4.3L conrods are 5.700 inches like a 350, but the journal size is 2.250 rather than the V-8's 2.100; we presume that the reason for the bigger journal is to add strength to the offset-style rod pins on the crank. Dougan's was able to modify Milodon 190,000-psi rod bolts for a 350 application just by clearancing the heads a bit, as shown on the right.

3 If our descriptions of a split-pin crank seemed a bit muddy, this photo should light a bulb for you. See how two rods (arrows) on the same journal are offset a bit? They're also separated by a cast-in thrust surface, and hence, the rods are narrower than a V-8's. Still, Sealed Power makes tri-metal bearings for the application (PN 6-1020CP). The Milodon main studs and oil-pump stud were sourced from a V-8 application. The oil-filter pad is much tinier than a V-8's; it takes an AC PF52 filter.

4 The Speed Pro pistons come stock with 6.1cc of valve relief. Combined with stock heads that Dougan's checked at 68cc chambers, pistons that we set at an average of 0.010 below deck, and Fel-Pro head gaskets with 0.041 compressed thickness, the V-6 would have 9.63:1 compression. Stock was 8.6:1. Because we changed plans midstream and decided to someday try the Vortech blower for carbs on this engine (see the story in this issue), we asked Dougan's to mill a 3.475x0.060 dish in the pistons for a total volume of 12 cc, lowering the compression to 9.08:1. For now, it runs fine on cheap gas.

5 To wrap up the bottom end, we twisted Dougan's builder Jeff Jacobs' arm until he agreed to modify our Milodon 350 windage tray to fit the V-6. He cut a few inches off the front, enlarged one bolt hole (arrow) to clear the dipstick tube, and tweaked a few louvers to fit the stock oil pan. Also check out the oil pump and pickup-they are Sealed Power part numbers 224-43469V (pump) and 224-14263 (pickup), an upgrade over the stock V-6 parts because they employ a 3/4-inch pickup tube. The steel oil-pump driveshaft is Sealed Power PN 224-6146E.

6 Dougan's Ray Field spotted the funky V-6 balancer (left) with a lip around the edge that might prevent the use of aftermarket pulleys even though the bolt pattern is the same as a V-8. You can use conventional short- or long-water-pump accessories on the 4.3. We also wanted a steel balancer in case we ever add the blower, and we needed an SFI-approved balancer for the track. Dougan's found that the Pioneer balancer (PN 872021) on the right is a 6.125-inch, lightweight V-8 unit that would fit perfectly. Neat! The 4.3L is an internally balanced engine like a 350.

7 A 4.3L can be cammed just like it was a 350 because each cylinder has the same displacement as its V-8 bro, though cams will seem bigger in the V-6 because there's less power overlap. Off-the-shelf cam grinds are pretty tiny for use with the OE computer-controlled applications that house most of these engines. We nabbed Comp Cams biggest hydraulic roller for our factory roller block, a 280HR with 224/224 duration at 0.050, 0.525 lift, and a 110-degree lobe-separation angle. The cam kit (PN K09-430-8) comes with cam, lifters, retainers, locks, seals, timing set, valvesprings, pushrods, guideplates, and rocker studs. At $638.69 (Summit), it's the biggest expense of the buildup, but also the key to making this thing run.

8 During assembly, Dougan's pointed out that the 0.350-inch lobe lift was all the block could take-any more and the hydraulic lifter would hit the stock-style link bars.

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Ricky Lundy
Ricky Lundy

seems like a lot of work for such little horsepower

Robert F. Raschke
Robert F. Raschke

You guys must not have been looking very hard. The Edelbrock 2114 intake manifold will work with the 96+ vortec heads which flow much better out of the box and will port and polish better still than the old heads. Also, with a little machine work on the valve guides and a set of beehive LS style springs with offset retainers and locks from Comp, you could have gotten that lift much easier than all the work you put into fitting those straight springs. So many of these have been built by S10 guys over the years, a trip or two to one of the S10 forums could have netted you the information to get you a lot further on this build, and gotten you there much easier. 

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