title-14-part-125-sec125-507

375

Federal Aviation Administration, DOT

§ 125.507

(b) [Reserved]

[Amdt. 125–53, 72 FR 63412, Nov. 8, 2007, as
amended by Docket FAA–2018–0119, Amdt.
125–68, 83 FR 9174, Mar. 5, 2018]

§ 125.503 [Reserved]

§ 125.505 Repairs assessment for pres-

surized fuselages.

(a) No person may operate an Airbus

Model A300 (excluding the –600 series),
British Aerospace Model BAC 1–11, Boe-
ing Model 707, 720, 727, 737 or 747,
McDonnell Douglas Model DC–8, DC–9/
MD–80 or DC–10, Fokker Model F28, or
Lockheed Model L–1011 beyond the ap-
plicable flight cycle implementation
time specified below, or May 25, 2001,
whichever occurs later, unless oper-
ations specifications have been issued
to reference repair assessment guide-
lines applicable to the fuselage pres-
sure boundary (fuselage skin, door
skin, and bulkhead webs), and those
guidelines are incorporated in its
maintenance program. The repair as-
sessment guidelines must be approved
by the responsible Aircraft Certifi-
cation Service office for the type cer-
tificate for the affected airplane.

(1) For the Airbus Model A300 (ex-

cluding the –600 series), the flight cycle
implementation time is:

(i) Model B2: 36,000 flights.
(ii) Model B4–100 (including Model

B4–2C): 30,000 flights above the window
line, and 36,000 flights below the win-
dow line.

(iii) Model B4–200: 25,500 flights above

the window line, and 34,000 flights
below the window line.

(2) For all models of the British Aero-

space BAC 1–11, the flight cycle imple-
mentation time is 60,000 flights.

(3) For all models of the Boeing 707,

the flight cycle implementation time is
15,000 flights.

(4) For all models of the Boeing 720,

the flight cycle implementation time is
23,000 flights.

(5) For all models of the Boeing 727,

the flight cycle implementation time is
45,000 flights.

(6) For all models of the Boeing 737,

the flight cycle implementation time is
60,000 flights.

(7) For all models of the Boeing 747,

the flight cycle implementation time is
15,000 flights.

(8) For all models of the McDonnell

Douglas DC–8, the flight cycle imple-
mentation time is 30,000 flights.

(9) For all models of the McDonnell

Douglas DC–9/MD–80, the flight cycle
implementation time is 60,000 flights.

(10) For all models of the McDonnell

Douglas DC–10, the flight cycle imple-
mentation time is 30,000 flights.

(11) For all models of the Lockheed

L–1011, the flight cycle implementation
time is 27,000 flights.

(12) For the Fokker F–28 Mark, 1000,

2000, 3000, and 4000, the flight cycle im-
plementation time is 60,000 flights.

(b) [Reserved]

[Doc. No. 29104, 65 FR 24126, Apr. 25, 2000; 65
FR 50744, Aug. 21, 2000, as amended by Amdt.
125–36, 66 FR 23131, May 7, 2001; Amdt. 125–40,
67 FR 72834, Dec. 9, 2002; Amdt. 125–46, 69 FR
45942, July 30, 2004. Redesignated by Amdt.
125–53, 72 FR 63412, Nov. 8, 2007; Docket FAA–
2018–0119, Amdt. 125–68, 83 FR 9174, Mar. 5,
2018]

§ 125.507 Fuel tank system inspection

program.

(a) Except as provided in paragraph

(g) of this section, this section applies
to transport category, turbine-powered
airplanes with a type certificate issued
after January 1, 1958, that, as a result
of original type certification or later
increase in capacity, have—

(1) A maximum type-certificated pas-

senger capacity of 30 or more, or

(2) A maximum payload capacity of

7500 pounds or more.

(b) For each airplane on which an

auxiliary fuel tank is installed under a
field approval, before June 16, 2008, the
certificate holder must submit to the
responsible Aircraft Certification Serv-
ice office proposed maintenance in-
structions for the tank that meet the
requirements of Special Federal Avia-
tion Regulation No. 88 (SFAR 88) of
this chapter.

cate holder may operate an airplane
identified in paragraph (a) of this sec-
tion unless the inspection program for
that airplane has been revised to in-
clude applicable inspections, proce-
dures, and limitations for fuel tank
systems.

(d) The proposed fuel tank system in-

spection program revisions must be
based on fuel tank system Instructions
for Continued Airworthiness (ICA) that

376

14 CFR Ch. I (1–1–24 Edition)

§ 125.509

have been developed in accordance
with the applicable provisions of SFAR
88 of this chapter or § 25.1529 and part
25, Appendix H, of this chapter, in ef-
fect on June 6, 2001 (including those de-
veloped for auxiliary fuel tanks, if any,
installed under supplemental type cer-
tificates or other design approval) and
that have been approved by the respon-
sible Aircraft Certification Service of-
fice.

(e) After December 16, 2008, before re-

turning an aircraft to service after any
alteration for which fuel tank ICA are
developed under SFAR 88, or under
§ 25.1529 in effect on June 6, 2001, the
certificate holder must include in the
inspection program for the airplane in-
spections and procedures for the fuel
tank system based on those ICA.

(f) The fuel tank system inspection

program changes identified in para-
graphs (d) and (e) of this section and
any later fuel tank system revisions
must be submitted to the Principal In-
spector for review and approval.

(g) This section does not apply to the

following airplane models:

(1) Bombardier CL–44
(2) Concorde
(3) deHavilland D.H. 106 Comet 4C
(4) VFW–Vereinigte Flugtechnische

Werk VFW–614

(5) Illyushin Aviation IL 96T
(6) Bristol Aircraft Britannia 305
(7) Handley Page Herald Type 300
(8) Avions Marcel Dassault—Breguet

Aviation Mercure 100C

(9) Airbus Caravelle
(10) Lockheed L–300

[Amdt. 125–53, 72 FR 63412, Nov. 8, 2007, as
amended by Docket FAA–2018–0119, Amdt.
125–68, 83 FR 9174, Mar. 5, 2018]

§ 125.509 Flammability reduction

means.

(a)

Applicability.

Except as provided

in paragraph (m) of this section, this
section applies to transport category,
turbine-powered airplanes with a type
certificate issued after January 1, 1958,
that, as a result of original type cer-
tification or later increase in capacity
have:

(1) A maximum type-certificated pas-

senger capacity of 30 or more, or

(2) A maximum payload capacity of

7,500 pounds or more.

(b)

New Production Airplanes.

Except

in accordance with § 125.201, no person
may operate an airplane identified in
Table 1 of this section (including all-
cargo airplanes) for which the State of
Manufacture issued the original certifi-
cate of airworthiness or export air-
worthiness approval after December 27,
2010 unless an Ignition Mitigation
Means (IMM) or Flammability Reduc-
tion Means (FRM) meeting the require-
ments of § 26.33 of this chapter is oper-
ational.

ABLE

Model—Boeing

Model—Airbus

747 Series

A318, A319, A320, A321 Series

737 Series

A330, A340 Series

777 Series
767 Series

(c)

Auxiliary Fuel Tanks.

After the ap-

plicable date stated in paragraph (e) of
this section, no person may operate
any airplane subject to § 26.33 of this
chapter that has an Auxiliary Fuel
Tank installed pursuant to a field ap-
proval, unless the following require-
ments are met:

(1) The person complies with 14 CFR

26.35 by the applicable date stated in
that section.

(2) The person installs Flammability

Impact Mitigation Means (FIMM), if
applicable, that is approved by the re-
sponsible Aircraft Certification Service
office.

(3) Except in accordance with

§ 125.201, the FIMM, if applicable, are
operational.

(d)

Retrofit.

Except as provided in

paragraph (j) of this section, after the
dates specified in paragraph (e) of this
section, no person may operate an air-
plane to which this section applies un-
less the requirements of paragraphs
(d)(1) and (d)(2) of this section are met.

(1) Ignition Mitigation Means (IMM),

Flammability Reduction Means (FRM),
or FIMM, if required by §§ 26.33, 26.35, or
26.37 of this chapter, that are approved
by the responsible Aircraft Certifi-
cation Service office, are installed
within the compliance times specified
in paragraph (e) of this section.

(2) Except in accordance with § 125.201

of this part, the IMM, FRM or FIMM,
as applicable, are operational.