.com  

Galvanized cars bodies

Car Makes

Audi
BMW
all Models
Cadillac
Chery
Chevrolet
Chrysler
Citroen
Changan
Daewoo
Dodge
Datsun
Fiat
Ford
FAW
Great Wall
Geely
GAC
Honda
Hyundai
Haval
Infiniti
Jaguar
Jeep
KIA
Land Rover
Lexus
Lifan
Lincoln
Mazda
Mercedes-Benz
Mini
Mitsubishi
Nissan
Opel
Peugeot
Porsche
Renault
Ravon
Saab
Seat
Skoda
SsangYong
Subaru
Suzuki
Toyota
Tank
Volkswagen
Volvo

Info

Galvanized cars list
Search
Change language

Save to

Galvanizing body of BMW M5 F90

The table below shows whether body of M5 F90, made from 2017 to 2024, is galvanized and the quality of processing.
 Print

Year
Processing Type Method Car body condition
2017 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
Result of processing: Good
Car's 7 years old.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 7 years.
2018 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
Result of processing: Good
Car's 6 years old.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 8 years.
2019 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
• since 2019 the paint coating updated
Result of processing: Good
Car's 5 years old.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 9 years.
2020 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
Result of processing: Good
Car's 4 years old.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 10 years.
2021 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
Result of processing: Good
Car's 3 years old.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 11 years.
2022 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
Result of processing: Good
Car's 2 years old.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 12 years.
2023 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
Result of processing: Good
Car's 1 year old.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 13 years.
2024 Full-body Electroplating
(double-sided)
• immersion in zinc electrolyte under current
• zinc layer 9 - 15 microns
• includes a share of aluminum body elements
• protection of connections against electrochemical corrosion has been applied
Result of processing: Good
Car was released this year.

Considering the car's age and quality of the zinc processing, under normal operating conditions the first corrosion will begin in 14 years.
The information in table is collected from open sources and may contain errors. About sources

Other generations

 – e28 1984–1988

 – e34 1988–1995

 – e39 1998–2003

 – e60 2004–2010

 – f10 2011–2014

 – f10 2015–2018

 –f90 2017–2024

 – all Models BMW

Types of processing

If the galvanized car body is damaged, corrosion destroys the zinc, not the steel.

•  Full-body — the car body is fully processed, including hidden and hard-to-reach cavities.

•  Partial — all nodal points and most vulnerable parts of the car body, thresholds, bottom, bottom of the doors are processed.

•  Nodal points processing — includes only processing of welding places, fasteners, stamping and other small parts.

Over years the processing is changed. The younger car the better it's galvanized!

Galvanizing methods

•  Hot-dip Galvanizing — best method (high corrosion resistance, resistance to mechanical influences, partial regeneration).

•  Electroplating — good method (less corrosion resistance that matches perfectly with the paint and primer).

•  Zincrometal — acceptable method (metal with an elastic coating on a zinc base, low anti-corrosion properties, low resistance to mechanical influences).

•  Cold Galvanizing — bad method (anaphoretic soil with an admixture of zinc is not able to resist corrosion).

Steel with a protective coating based on zinc - zincrometal, it contains three components:

1 — zincrometal (zinc solution in epoxy resin) 10-20 microns
2 — dacromet (zinc variance inchromic acid water solution) 2-5 microns
3 — sheet of steel

The presence of zinc particles in ground covering the car body does not affect it's protection and is used by the manufacturer for word "Zinc Coated" in advertising.

Testing

Test results of cars that came off the conveyor with the same damage (cross) on the bottom of front right door are presented below. The tests were carried out in laboratory. Conditions in a chamber with hot salt fog for 40 days correspond to 5 years of normal operation.

Car with Hot-dip Galvanizing
(zinc layer 12 - 15 microns)

Paint / 5 µm

Enamel / 40 µm

Base / 20 µm

Ground / 30 µm

Ground / 20 µm

Zinc coating / 12-15 µm

Steel

Car with Electroplating coated
(zinc layer 5 - 10 microns)

Paint / 5 µm

Base / 10 µm

Paint / 5 µm

Base / 10 µm

Ground / 20 µm

Ground / 5 µm
Zinc coating / 5 µm

Steel

Paint / 20 µm

Base / 10 µm

Paint / 20 µm

Base / 10 µm

Ground / 15 µm

Ground / 10 µm
Zinc coating / 10 µm

Steel

Car with Cold Galvanizing
(zinc layer 10 microns)

Base and Paint / 15 µm

Ground / 35 µm

Ground / 15 µm

Zinc-containing coating / 10 µm

Steel

Car with Zincrometal

Paint / 25 µm

Base / 10 µm

Ground / 25 µm

Ground / 20 µm

Steel

Car without galvanizing

Enamel and Paint / 40 µm

Ground / 25 µm

Ground / 15 µm

Steel

Important information

•  Over the years manufacturers have improved the galvanizing technology of their cars. The younger the car the better it is galvanized!

•  A coating with a thickness of 2 to 10 microns (micrometers) provides excellent protection against the occurrence and spread of corrosion damage.

•  The destruction rate of the active zinc layer in the place of damage to the car body is from 1 to 6 microns per year. Zinc is more actively destroyed at elevated temperatures.

•  If the manufacturer does not add "full-body" to the term "galvanizing", it means that only impact-prone elements have been processed.

•  Pay more attention to the presence of a manufacturer's warranty on the car body than loud phrases about galvanizing from advertising.



Other info

© 2011–2024  ·  Galvanicar.com — Galvanized cars list and how body processed.  English  ·  Contact  ·  Policy and Cookies