When it comes to sourcing out a rearend for any of our lowrider projects, there is really only one choice — Currie Enterprises. They’ve built tens of thousands of rearends over the past 50-plus years, especially since their axles became synonymous with the performance aftermarket in the ’80s.

With the availability of original parts drying up (face it, you don’t see many 8- or 9-inch rears in junkyards these days), Currie set out to produce its own axle center housings, gear cases, yokes, and differential carriers. 9-Plus products are brand-new manufactured components and assemblies, meeting or exceeding OEM specifications. The housings and covers are made from high-tensile steel, almost 40-percent stronger than conventional 1010 low-carbon steel.

Building an axle housing to a customer’s required width or for the lowrider “skirt” preferred on Impalas, Caprices, and Ford LTDs is the “easy” part, as assembling the differential is somewhat more time-consuming and technical, yet the team at Currie makes it look simple.

Incidentally, all the 9-Plus components are available individually, should you want to build your own axle. Currie even sells an assembly alignment bar under its 9-Plus brand (www.new9inch.com), as well as everything from gear cases and mini-spools to T bolts, bearings, gaskets, and retainer plates.

currie enterprises rear axles rear end stock 002

1. Currie Enterprises recently moved to a new location, allowing the opportunity to redesign its facility. The result is a near production line of rearends. Here is a portion of the stock for various applications.

currie enterprises rear axles axle tubes 003

2. Once Currie has the desired width of a rearend, the axle tubes are cut to length from 3-inch diameter, 0.188-inch wall steel tubing.

currie enterprises rear axles gear case install 004

3. With the axle housing placed in a jig, a gear case is installed with collars in place of the bearings, and an alignment bar installed through the collars. The axle tubes are then put in place.

currie enterprises rear axles bearing housing 005

4. The bearing housings (in our case largebearing Torino-style housings), also with collars in place of the bearings, clamped in place using Vise Grips, are slid over the alignment bar, and the housing width checked.

currie enterprises rear axles bearing housing assembly welding 006

5. With the front face of the gear case set level, the bearing housings set perpendicular to that and all four bearings aligned using the bar, the assembly is tack welded.

currie enterprises rear axles bearing housing assembly welding 007

6. The entire assembly is then transferred to a slowly rotating jig for final welding.

currie enterprises rear axles bearing alignment 008

7. Once welded and cooled, the housing is moved to this heavy-duty press, which, with the assistance of another alignment bar, is used to perfectly align the bearings.

currie enterprises rear axles vent drilling 009

8. The housing is next drilled and tapped for a vent.

currie enterprises rear axles media blasting 010

9. The completed housing is media blasted and hot tanked prior to delivery to the assembly area.

currie enterprises rear axles third member components 011

10. The new components for the third member; a 3.55:1 ring and pinion, open carrier, new yoke, and pinion support, plus bearings and bolts.

currie enterprises rear axles tapered bearing pressing 012

11. Assembly starts by pressing tapered bearings onto the carrier.

currie enterprises rear axles ring gear bolting 013

12. The ring gear is bolted to the carrier and torqued to 65 lb-ft. Note the splined tool used to hold the carrier in place while the ring gear is torqued.

currie enterprises rear axles pinion support 014

13. The bearing and seal are pressed into the pinion support…

currie enterprises rear axles pocket bearing install 015

14. … and the pocket bearing is installed in the gear case.

currie enterprises rear axles gear case assembly 016

15. This jig is used to hold the gear case while it’s assembled, and is capable of being flipped to work on both sides. Here the pinion support is bolted in…

currie enterprises rear axles ring gear and carrier install 017

16. … before the case is flipped and the ring gear and carrier are lowered into position. The spanner nuts and caps are then installed, the cap bolts tightened to 85 lb-ft.

currie enterprises rear axles contact pattern 018

17. After backlash is set using a dial gauge, depending on the gear manufacturer’s recommendations, gear marking compound is applied to the ring gear to establish the contact pattern between the ring and pinion. An electric drill is used to spin the pinion to determine this.

currie enterprises rear axles spanner nuts 019

18. Once any adjustments are made, by readjusting the spanner nuts, and the pattern is central on the ring gear teeth, these lock tabs prevent the nuts from moving.

currie enterprises rear axles yoke pinion install 020

19. The yoke can now be installed on the pinion to complete the third member assembly.

currie enterprises rear axles axle tube cleaning 021

20. Moving to the assembly area, and with the rearend housing clamped in a jig, an air-powered rotary wire brush is used to clean the axle tubes of any debris.

currie enterprises rear axles magnet 022

21. A magnet is glued in the bottom of the “pumpkin” to catch any metallic debris once the rearend is in use.

currie enterprises rear axles third member casing 023

22. With a bead of RTV on both sides of the gasket, the third member is lowered into position in the casing.

currie enterprises rear axles axle cutting and splining 024

23. While the third member was being assembled, the axles were cut to length and splined.

currie enterprises rear axles wheel stud installer 025

24. Currie has this neat press for installing wheel studs.

currie enterprises rear axles retainer plate install 026

25. Do not forget to install the retainer plate prior to pressing the bearing onto the shaft!

currie enterprises rear axles collet and bearing pressed in 027

26. With the retainer in place, the collet and bearing is pressed on.

currie enterprises rear axles haft install 028

27. Put a little grease on the bearings to install the shafts. The retainer plates use the same studs that hold the drum brake backing plates.

currie enterprises rear axles impala rear end 029

28. Strapped down, crated, and ready for delivery to your Impala classic garage.

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Axalta Monthly Tech Tip

Just Trying to Blend in
By Axalta Coatings Systems

This month’s Axalta Coating Systems Paint Tip is about color matching. When it comes to blending light metallics, or even solid colors, it is one of the more challenging things for a new painter to master. The techniques below can be used for solid colors, metallics, pearls, and even tri-coats.

These blending recommendations are fast, easy, and durable.

Blending Tips for Success:

    • Lower air pressure usually helps blending.
    • On tough blends, use a narrow fan, reduced fluid flow, and reduced atomizing air pressure just high enough to give sufficient breakup. Gravity and HVLP equipment usually perform better than siphon.
    • For optimum results, use smaller fluid tips (1.5 mm or smaller) set to the lowest air pressure that still gives good atomization.
    • Agitate ready-to-spray paint thoroughly, especially high metallics and pearls, and be sure to spray immediately after loading the gun. Do not allow paint to settle in the gun cup. Stir paint again between coats if necessary.
    • Apply base color over properly prepared surfaces, and be sure to allow ample flash time between coats.

If you’re painting in a shop that uses Axalta water-base products, it’s pretty simple. All you have to do is add 50 percent of their blender to 50 percent of the solid basecoat that you have left over after coverage. Mix them together, stir thoroughly, then spray it on to the blend panel.

To achieve this same invisible blend with Axalta solvent basecoats, go through the same process but use reducer instead of a blender at 50 percent to achieve the same results. For more technical advice please feel free to contact Axalta’s product specialist Steven Chaparro at steven.c.chaparro@axaltacs.com.

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