1995 Mazda Miata With 350z Motor Swap - Unfinished Project on 2040-cars

US $6,000.00

Year:1995 Mileage:30000

Location:

Spring Branch, Texas, United States

1995 Mazda Miata with 350z Motor Swap - Unfinished Project, US $6,000.00, image 1

1995 Mazda Miata with 350z Motor Swap - Unfinished Project, US $6,000.00, image 2

1995 Mazda Miata with 350z Motor Swap - Unfinished Project, US $6,000.00, image 3

1995 Mazda Miata with 350z Motor Swap - Unfinished Project, US $6,000.00, image 4

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This is an unfinished project. The car does not run and needs someone to finish this project. It is a 1995 Mazda Miata with a Nissan 350z motor, TEC3 engine management, full rollcage, TEIN shocks with EDFC, Nissan LSD, Kodiak Racing 3 piece lightweight 17" wheels (front and rear) and two 15" wheels with slicks, Wilwood brakes, body kit that is custom molded together so rear and front bumpers are molded into the side panels, and lot's of other custom aftermarket parts such as headlights, gauges, etc.

You will need to make arrangements to pick up or have the car shipped to you. You will be dealing with Bell Engineering.

The car is located at:

Bell Engineering

203 Kestrel Drive

Spring Branch, TX 78070

(830) 438-2890

corky@bellengineering.net

Google Bell Engineering and go to their website. Click "Current Projects" link under "In The Shop". Click on "1.8L Miata w/ 350Z Motor". I'm sorry but Ebay does not allow me to provide links.

For more pictures of the project please send me a message. Ebay does not allow me to provide links to my photo album.

These are the stuff Bell Engineering did.

1. Motor and transmission. Labor Labor for 17 hours for work done thru Oct. 15, 2008. Uncrated and disassembled motor, drive train, modified engine bay for motor to fit, working on mounting transmission, steering rack and subframe.

2. Modification of subframe. Pulled existing motor out of engine bay and started prep work on the frame rails, removed all mechanical and electrical parts from the engine bay to prep for cleaning and paint.

3. Fabricating initial flat steel flanges for the exhaust manifolds. Tim cut and welded the pieces to cover the frame rails inside the engine bay. Cut the flat bar and tubes to build the rear differential brace which will mount the 350Z diff to the car. Used the factory mount positions and built an I beam to connect the two bushing holders. Finished the other side of the engine bay, tack welded the diff brace together.

4. Hanging the rear differential brace on the car using the factory top bushings. Upper bushings will have to be modified or replaced to allow bolt to stick through the new diff brace. 350 diff is in place under the new brace and measured for additional bracing. The entire rear suspension is going to be pulled off the car to fit the diff as we have to bolt through the rear crossmember and the gas tank is above it. Removed the entire rear suspension subframe assembly from the car. Removed the fuel filter system under the body of the car, a few miscellaneous parts from the underbody and tore down some of the subframe so the diff can be mounted.

5. Disassembling and repairing rear differential; fabricated and welded braces, and painted engine bay.

6. Fabricate jig for turblar K-Member; continued building race for rear differential.

7. Work performed on rear differential reinforcements and mount; changing the mounts on the K member jig to fit the lower pipe around the tabs. Performed welding on the intake manifold. Measurements were taken for cross beams of K-Member and frontal loop.

8. Work performed on threading the vertical rods to hold the diff in place & assembled the diff bracket. Installed the rear diff carrier back on the car. Installed the brake lines, fuel, electric in the rear of the car. Prepped the diff and researched LSD options for rear. Started building the front tubular K member starting with the forward mounting positions and A-Arm mounts.

9. Worked on crossmember and motor mounts, motor mount blocks. Aligned the transmission to differential

10. Working on the drive line splash guard.

11. Work performed on rear axle, motor mounts, transmission mounts and steering. Removed the interior and started design on the roll bar/cage.

12. Fabricating the steering and purchasing the materials for the roll bar/cage. Roll bar materials - steel round tubing.

13. Designing and fabricating roll bar. Stripped interior of car worked on bracing and obtaining materials.

14. Fabricated roll bar floor plates, researched and located cage braces.

15. Roll cage main hoop, front cage braces for front windshield.

16. Worked on locating turbo on car, and steering placement, and relocating some wiring.

17. Tack welded roll bar in place.

18. Worked on turbo placement, steering, and modifying the body to accommodate the radiator and intercooler.

19. Welded front support, removed support and mocked up intercooler and boost tubes. Finished crossbracing on roll cage.

20. Welded on roll bar, and worked on turbo exhaust manifolds.

21. Welded top cross bar in on roll cage, welded all seams on roll cage except for driver side due to clearance problems, welded intercooler cores together for intercooler, aligning and prepping rear-end to get ready to install.

22. 2 left and 2 right Heim (Rod Ends)

23. Made differential mounting plate for the rear end; boxing upper control arms on rear end. Built the anti-roll bar for the rear suspension.

24. Worked on torque arms from lower control arms to the sub-frame; built brackets for hiem joints on torque arms; built torque arms and bracing.

25. Worked on anti-roll bar, straitening frame rails and fabricated frame rail boxes to strengthen the frame rails, installed the boxes from front to back. Welding frame rails together, putting brackets on to connect front k-member to frame rails, fitting new frame rails in the car and welding them in place solid.

26. Welding pinion angle supports in to place and rear end plate fully bolted in.

27. Re-installing front suspension, steering rack, tie rod ends and steering arms and alignment.

28. Pulled motor and cross member. Build path thru motor mounts for the steering shaft.

29. Make Brackets to strengthen the steering rack mounts. Build a tube thru the cross member for the steering shaft. Corky Welded on all brackets and tubes.

30. Grind Clearance on cross member and turn the steering shaft down on one end. Needed in order to clear the cross member.

31. Finish welding the cross bar at the front of the car (radiator area) to permit removal of shock absorber and cowl support.

32. Clean and Repaint tube and firewall. Clean front suspension and rack at the car wash. Degreased and brushed clean. Repainted.

33. Assemble and partially install front suspension.

34. Paint Steering Column. Clean and lube U joints.

35. Front Bumper installed to check fitment. Bumper uninstalled. Painted Engine mounts. Assembled engine mounts to Motor. Motor installed in chassis.

36. Exhaust Manifold Driver and Passenger Side. External Wastegate Design. Modify Engine Block for Manifold to clear engine.

37. Parts & Materials.18 Weld Elbows. 2.5' of 2.5" ID 3/16 wall thickness Steel Tubing. Two Turbine Inlet Flanges. Two Wastegate Flanges. Two Weld Elbow Reducers 2.0" to 1.5".

38. Remove Exhaust Manifolds. Alter WG tube, Additional Fabrication, and welding.

39. Install Rear Suspension.

40. Install Front Brake Assemblies. Discs, calipers, and pads.

41. Install sub frame connectors for torsion rails.

42. Tape Off Roll Cage and Car. Primer Roll Cage. Paint Roll Cage.

43. Fabricate and Install Plate to cover old shifter hole. Used OEM fasteners.

44. Aluminum Sheet -.080 - 3003 Alloy. 7" x 8" piece used.

45. Pulled Rack and Pinion and tack welded on arms. Reinstalled for test fitment.

46. Welding on Flange by CB. Weld in disc for Ext WG. Layout, design, mock up, and some fabrication of exhaust pipes. Exhaust pipes are not complete.

47. 2 1/4" U bend - 4" Radius.

48. 2 1/4 " U Bend - 3" Tight.

49. 2 1/4" Mild Steel Tubing Aluminized, 16 gauge.

50. Downpipe Flange - Mild Steel.

51. Modify K Frame to fit Starter motor. And to fit Oil Filter. Welded and Repainted.

52. Pull Motor to modify K Frame and to Modify Oil Pan.

53. Design and Fabricate Oil Pan Flange & Pick up flange. Make Flange.

54. Additional Fabrication of Downpipe and turbo Wastegate vent tube.

55. 2" x 1" Steel Flat Bar.

56. 2 3/4" Steel Tubing Aluminized.

57. Aluminum Sheet - 3003 Alloy, .125 (1/8).

58. 1 1/2" U- Bend 3" Radius, 16 Gauge.

59. Wastegate Flange 3/8 HR.

60. Primer Paint for Frame.

61. 3" x 1/2" Aluminum 6061 Flat Bar and welded together to make oil pan flange mount.

62. Intercooler cores

63. Clean and paint oil pick up tube and pick up screen. Build cover plate for oil pan. Install upper oil pan bolt at the pick up tube.

64. Make Oil Pan Gasket. Re-surface the oil pan. Deburr oil pan and clean. Prep oil pan for hole repair.

65. Intercooler Design, cut/fit of metal, fabrication, mounts, and welding together.

66. Modify fender/frame for Intercooler fitment.

67. Design, route, and fabricate Intercooler inlet tube (from turbo to Intercooler) on driver side. Partial tube on passenger side. Need to be finish welded later.

68. Build base plate for intake. Prepare elbows for intake fabrication.

69. Grind and polish top of Cam Timing Cover for clearance. Pits will be re-welded and smoothed later.

70. 10mm x 1.5 x 37mm Grade 8.8 ZP Studs.

71. 10mm x 1.50 Hex Flange, All Metal Lock Nut.

72. Design and Fabricate of dual plenum/intake manifold. Design/Fabricate/Welding Intercooler to manifold plenum.

73. 2.0" Elbow Casting.

74. 3.5" OD Aluminum Tubing. 6063. 11 Gauge.

75. 3.5" X 1/4" Aluminum Strap.

76. 2.25" Alum. Elbow.

77. 2.25" to 3.0" Cones. About 2" long.

78. Design/Fabricate/Weld Cones.

79. Design/Fabricate/Tach Weld base and air tubes to plenum.

80. Design/Fabricate/Weld Wastegate vent tubes to exhaust pipe. Passenger side and Driver Side Exhaust Pipes.

81. Wastegate Flange 3/8 HR.

82. 1 1/4" U Bend

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Auto blog

Ruminations in winter | 2016 Mazda MX-5 Miata long-term update

Fri, Mar 17 2017

Winter is an odd time for our 2016 Mazda MX-5 Miata Club long-term tester. In the summer, the track beckons. Fall and spring bring top-down adventures at sunset. But our Miata is a little out of its enthusiast element when the weather is harsh and our moods grow as gray as a January day in Michigan. Sure, there's the occasional snowstorm, and equipped with winter tires the Miata can be a fun toy. But what about when it's just cold and dreary? We had a lot of time to reflect on our MX-5 these past few months, and we still managed to find enjoyment in the little things - even though admittedly this is not the time of year when the Miata shines. For starters, we taught associate video producer Amr Sayour how to drive a stick shift with the Miata. With its agreeable clutch and short throws, the six-speed manual was the perfect learning instrument for Sayour. His teacher, Adam Morath, actually had to show him how to stall. Arguably, learning to drive a manual isn't a little thing, but it was these run-of-the-mill events that showcased the Miata could be more than tolerable in winter. Associate Editor Joel Stocksdale used it for a 500-mile roundtrip to pick up a new pet and found it was a little tight for dog and driver. Though Stocksdale still enjoyed the sports-car feel, he came to the conclusion that "Miata is always the answer, but not always the best one." We also quickly realized the MX-5 isn't a great commuter car, nor did we expect it to be. It's low to the ground. It's loud. The small cabin has a greenhouse effect, and the windows fog easily. "If you have a Miata, it will creak and rattle in the winter. A lot. Nothing out of the ordinary here - this is a convertible with a lot of flexy parts - but something the casual shopper might not be aware of," Editor-in-Chief Mike Austin noted. Still, he found ways to have fun. "On the upside, winter tires = low-speed power oversteer." We had a lot of time to reflect on our MX-5 these past few months, and we still managed to find enjoyment in the little things. Speaking of those snowshoes, Stocksdale said they made our Mazda a "perfectly acceptable winter ride." Keeping the traction control on, he navigated his neighborhood roads in packed snow with little trouble. Like Austin advised, be aware of the ground clearance; Stocksdale got hung up in deep snow while attempting to scale his driveway.

Mazda's game plan: Compression ignition, superchargers, EVs — and still fun to drive

Tue, Aug 8 2017

Today, Mazda announced its new Sustainable Zoom-Zoom 2030 initiative. Dumb marketingspeak name aside, this is Mazda's general plan to make its cars more efficient while still keeping Mazda's fun-to-drive character. The most notable part of this announcement is Mazda's new Skyactiv-X engines and the addition of EVs and electrified powertrains starting in 2019. As we reported back in January, this new supercharged Skyactiv-X engine family will be the first to use high-compression ignition, or HCCI, rather than traditional spark plugs. Each year, fuel economy and CO2 emissions standards grow ever tighter. Each and every automaker around is looking for ways to improve both factors. Initially, most have chosen to downsize engines and add turbochargers. That's why Mazda's new Skyactiv-X engines are going to be so special. They essentially work like a diesel engine, using extremely high compression to ignite the fuel rather than the flame from a spark plug. Adding a supercharger rather than a turbo retains a smooth and immediate engine response. Look for a 10 to 30 percent increase in torque and a sizable boost in fuel economy. Mazda's engine already have some of the highest compression ratios around, but these new engines will push well into diesel territory. The biggest issue so far with gasoline compression ignition is controlling when the gasoline ignites. Mazda claims to have solved this issue, seamlessly moving from spark to compression ignition. This new plan comes 10 years after the first Sustainable Zoom-Zoom initiative was announced. With Sustainable Zoom-Zoom 2030, Mazda wants to focus on the Earth, society, and people. Together with the new engines, Mazda hopes to create a sustainable future that still involves engaging and fun-to-drive automobiles. First, Mazda wants to consider emissions over the entire life of a car. That means reducing emissions generated while building the car or fueling and charging a car in addition to those released while it's on the road. The goal is to reduce emissions to 50 percent of 2010 levels by 2030, and a 90 percent reduction by 2050. New electrified models will debut in 2019 in markets that have a high ratio of clean energy for power generation. Mazda's focus on society aims to improve safety with the Mazda Proactive Safety philosophy. Like with Skyactiv, this ethos goes far beyond simply improving an engine or adding new active safety technology.

Mazda reportedly to be fully electric and hybrid by 2030s

Fri, Sep 15 2017

TOKYO - Mazda plans to make all of its vehicles electric-based, including gasoline hybrids, by the early 2030s, Japanese media reported on Friday, as more automakers shift strategies to meet tightening global emission regulations. The Japanese automaker plans to use electric motors in all of its models by that time, Kyodo News reported, without citing sources. A Mazda spokeswoman declined to comment on the report. At the moment, Mazda's lineup does not include any all-battery electric vehicles. It does offer a hybrid version of the Mazda3, but it's only available in Japan. The company has also experimented with a range-extended electric Mazda2, which used a tiny rotary engine to produce electricity. The move is consistent with the company's Sustainable Zoom-Zoom 2030 plan, which lays out the launch of various green powertrains. Among them are electrified models coming out in 2019. That same year will include the launch of the company's new SkyActiv-X engine, a compression ignition gasoline engine, which promises fuel efficiency improvement of 20- to 30 percent over comparable spark-ignition gas engines. This engine could hypothetically be combined with hybrid technology for even greater gains in efficiency, or even performance if the company so chooses. Mazda's recent partnership with Toyota also means Mazda could be able to quickly develop hybrids and electrics using Toyota's existing technology. This news that Mazda will begin primarily focusing on electric powertrains does seem contrary to Mazda CEO Masamichi Kogai's statement that its gasoline, diesel and electric vehicle technologies would "co-exist" in the future. Mazda on Thursday also launched a new CX-8 three-row crossover for the Japanese market, which is currently only available with a diesel engine. The company also plans to finally introduce a diesel engine to the United States in the CX-5 crossover. Assuming that Mazda's move to fully electrified vehicles is true, it will join a couple of other automakers planning to do the same. Volvo Car Group in July said that all of its new models from 2019 would feature some amount of electrification, and Jaguar-Land Rover will follow suit starting in 2020. Reporting by Naomi Tajitsu. Editing by Sherry Jacob-Phillips. Additional words from Joel Stocksdale.Related Video: Image Credit: Toru Hanai / Reuters Green Mazda Electric Future Vehicles Hybrid mazda hybrid mazda electric car