Slammed 4x4?

Disclaimer: Links on this page pointing to Amazon, eBay and other sites may include affiliate code. If you click them and make a purchase, we may earn a small commission.

Chris67530

Junior Member
Joined
Jul 10, 2026
Posts
1
Reaction score
1
Location
Great Bend Kansas
The Hybrid Pro-Street Problem: Getting AWD Launches on a Laid-Out Truck
A concept study in having both — by Chris67530
Concept and specification: the author. This article documents an original engineering concept developed in 2026. Renderings and build to follow.

There’s a rule everyone in the slammed-truck world accepts without thinking about it: you can lay frame, or you can hook on all four tires — pick one.
The physics behind the rule is real. A driven front axle needs halfshafts, and halfshafts need workable CV joint angles. Drop a 4x4 more than two or three inches and the CVs run out of geometry: bind, click, grenade. So the bagged crowd builds two-wheel-drive trucks and lives with wheelspin, and the AWD-launch crowd builds trucks that sit tall enough to clear their own front differentials. Fifty years of custom truck building, and the two camps have never really shaken hands.
I spent a while trying to break that rule on paper. This is where it went.
The donor and the problem
The platform is a 2017 Ram 1500 crew cab — the fourth-gen Ram, and quietly the best slam donor Detroit ever built, because it’s the only half-ton with a coil-sprung rear axle. No leaf packs, no flip kits: bags bolt where coils lived, a notch goes in the frame, and the truck lays out like it was designed to.
The powertrain concept is a forged 5.7 HEMI under a Whipple 3.0L twin-screw at 10–11 psi — roughly 750 horsepower and 730 lb-ft on 93 octane, with the tabletop torque curve only positive displacement delivers. Behind it, a built ZF 8HP70 and a narrowed Ford 9-inch with 35-spline axles, living under fabricated bed tubs stuffed with 355-series rubber on 24×12 forged wheels.
On paper that’s a 10-second truck. In practice, a 5,300-pound pickup putting 700+ lb-ft through two tires — even two very wide, very sticky tires — spends the first sixty feet of every pass negotiating with the pavement. The math says low elevens. The tires say “we’ll see.”
Every conventional answer to that problem costs the stance:
Mechanical 4x4 conversion. The obvious move, and the one that caps the drop at the CV joints. You get the launch and lose the lay-out. The front diff and transfer case also become the new lowest points and the new weakest links at this torque. The truck ends up “nicely dropped” — which, in this crowd, is a consolation prize.
Bigger, stickier rear tires. Helps — it’s why the tubs and 355s are in the spec regardless — but contact patch has diminishing returns against a torque curve that’s fully home by 2,800 RPM. Width is a supporting actor. It is not the answer.
So the question sharpened into something more interesting: is there a way to drive the front tires that doesn’t care about ride height at all?
The insight: the driveline is the constraint, so delete the driveline
Here’s the thing a mechanical 4x4 actually requires: a transfer case at the transmission, a driveshaft running forward, a differential between the frame rails, and halfshafts at whatever height that differential ends up sitting. Every one of those components votes on your ride height, and the CV angles get veto power.
An electric front axle deletes all of it except the halfshafts.
Mount a compact EV drive unit — a Tesla small drive unit from a Model 3/Y front axle is the obvious donor: roughly 250 horsepower and 330 lb-ft, about the size of a beer cooler — in a custom subframe, and something changes fundamentally: the motor mounts wherever the halfshaft geometry wants it to. No driveshaft coming from the back of the truck dictating its height. No transfer case. Mount it high and forward, and the halfshafts run dead level at cruise height.
Which leaves only one edge case: what about full lay-out, parked, where any front axle’s shaft angles go obscene?
This is the second insight, and it’s almost embarrassingly simple once you see it: CV joints only care about angle under power and rotation. Parked and laid, they’re just sitting there. So the air management and the drive system get wired together — a height interlock. Below cruise height, the e-drive is electronically inhibited. The truck lays frame at the show with the front shafts at angles that would destroy them under load, and it doesn’t matter, because they’ll never see load there. Air up to cruise, the interlock releases, and you have all-wheel drive.
Lay-out stance and AWD launches. The rule everyone accepted turns out to have been a rule about mechanical drivelines, not about driven front wheels.
Why hybrid, specifically, is the right answer here
The e-axle isn’t just a traction device — it’s a torque-fill device, and that’s where the concept gets genuinely good.
A twin-screw supercharger is boost-everywhere compared to a centrifugal, but “everywhere” still starts around 2,800 RPM at full pressure. An electric motor’s 330 lb-ft is there at zero RPM. Overlay the two curves and the electric torque sits exactly in the combustion engine’s one soft spot — the first instant of the launch — then tapers off as boost arrives and the Whipple takes over. The blend calibration hands off between them like a relay team.
Combined system output pencils out around 1,000 horsepower and 1,030+ lb-ft, with four driven contact patches and no hole anywhere in the curve. The battery is a ~5 kWh high-discharge pack — deliberately small, because the duty cycle is a burst: ten to fifteen seconds of full assist, which is conveniently the length of exactly one quarter mile. It regens back on the drive home. This isn’t an EV conversion; it’s an electric push-to-pass button that happens to also be an all-wheel-drive system.
Projected numbers: 0–60 around three seconds flat, quarter mile in the low 10.2–10.5 range at ~123 mph — from a truck that, twenty minutes earlier, was sitting on its frame rails at a show with the rockers kissing asphalt.
And on the highway? The e-drive is off, silent, and invisible. The Hemi loafs along in eighth gear under 1,800 RPM. The truck remains what every truck in this concept family has to be: a daily.
The honest engineering bill
None of this is free lunch, and a concept study that hides its costs is just a rendering. The real ones:
Weight — the drive unit, subframe, and pack add 400–500 pounds, some of it usefully over the front tires. Hub hardware — the Ram’s front hubs were never driven; they get upgraded to driven-spec bearings with custom-length shafts. High-voltage discipline — contactors, isolation monitoring, inertia cutoff, a first-responder loop, done to EV-industry practice rather than hot-rod practice, because 400 volts does not care about your timeslip. Thermal — the drive unit and pack get their own coolant loop, joining a cooling stack that’s already oversized for the twin-screw. Calibration — the throttle-blend strategy is real engineering hours; this is the part where the build lives or dies.
Rough order of magnitude, the electric system adds $18–28k to a build that was already deep in six figures. Nobody said breaking a fifty-year rule was cheap. But notice what’s not on the bill: exotic, unobtainable, or unproven hardware. Every component exists today, most of it in salvage yards and EV-swap catalogs. The only new thing here is the combination.
Why I’m publishing this instead of hoarding it
Because ideas on hard drives don’t count. This concept sits at the exact intersection the whole industry is circling — how electrification and internal combustion coexist without one apologizing for the other — and I’d rather see it argued about, improved, and eventually built (by me or by someone faster) than have it age quietly in a folder.
If you build on it, the idea has one name on it. You’re reading him.
The full specification — forged bottom end through the narrowed 9-inch, the tubs, the air management, all of it — runs twelve pages, and the truck it describes has a garage-mate: a 1976 F-100 stepside restomod on its own narrowed 9-inch, painted the same blue, representing the analog end of the same argument. One truck per century. Both slammed. One of them, someday, doing 10s on four driven tires with its frame rails still warm from the pavement.
— Chris, Great Bend, Kansas

Concept specification available on request. Comments, objections, and better ideas welcome — especially from anyone who’s packaged a drive unit in a half-ton nose and has scars to share.
 

Wild one

Senior Member
Joined
Jan 17, 2016
Posts
23,896
Reaction score
55,050
Ram Year
14 Sport
Engine
5.7
You've been studying the new hybrid Vette haven't you,lol. The concept is nothing new,but executing it and making it functional and keeping the costs inline with what most people are willing to spend is a whole nother story.You'd probably be better off building a tube chassis to hold it all,and mounting a 4th gen body to it.

By the time you're done it might be cheaper to buy the Vette :Big Laugh: This ones on my local marketplace for $137,000 Canuck,so under a $100,000USD;)


2026 Chevrolet corvette e-ray 1lz​

CA$137,628
Listed a week ago in Calgary, AB




About this vehicle​




Driven 300 km

Automatic transmission

Exterior color: White · Interior color:

Fuel type: Gasoline

Excellent condition

Clean title
This vehicle has no significant damage or problems.

Seller's description​



2026 Chevrolet Corvette E-Ray 1LZ | AWD Hybrid | Arctic White Finished in Arctic White over a Jet Black interior, this E-Ray delivers exotic supercar performance with all-weather confidence thanks to its intelligent all-wheel-drive system. Instant electric torque, Magnetic Ride Control, and aggressive styling make this one of the most capable Corvettes ever built.Factory Highlights:✔️ 6.2L V8 Hybrid AWD✔️ 655 Horsepower✔️ 8-Speed Dual-Clutch Transmission✔️ Magnetic Selective Ride Control✔️ GT1 Bucket Seats✔️ Bright Red Brake Calipers✔️ Pearl Nickel Forged Aluminum Wheels✔️ Performance All-Season Tires✔️ Only 4 KM Was: $152,628 Capital Discount: -$10,000 NOW: $142,628 + GST & fees⚡ Cash Price Available: $137,628 Message me directly for payments, financing options, or to book your private viewing.

1783742922760.png
1783742972548.png
 
Last edited:

Members online

No members online now.

Forum statistics

Threads
211,418
Posts
3,066,399
Members
171,880
Latest member
bradstephens25
Back
Top