Texas Administrative Code
Title 19 - EDUCATION
Part 2 - TEXAS EDUCATION AGENCY
Chapter 130 - TEXAS ESSENTIAL KNOWLEDGE AND SKILLS FOR CAREER AND TECHNICAL EDUCATION
Subchapter B - ARCHITECTURE AND CONSTRUCTION
Section 130.48 - Construction Technology I (Two Credits)
Universal Citation: 19 TX Admin Code ยง 130.48
Current through Reg. 49, No. 38; September 20, 2024
(a) General requirements. This course is recommended for students in Grades 10-12. Recommended prerequisite: Principles of Construction or Principles of Architecture. Students shall be awarded two credits for successful completion of this course.
(b) Introduction.
(1) Career and technical education
instruction provides content aligned with challenging academic standards and
relevant technical knowledge and skills for students to further their education
and succeed in current or emerging professions.
(2) The Architecture and Construction Career
Cluster focuses on designing, planning, managing, building, and maintaining the
built environment.
(3) In
Construction Technology I, students will gain knowledge and skills needed to
enter the workforce as carpenters or building maintenance supervisors or to
prepare for a postsecondary degree in construction management, architecture, or
engineering. Students will acquire knowledge and skills in safety, tool usage,
building materials, codes, and framing. For safety and liability
considerations, limiting course enrollment to 15 students is
recommended.
(4) Students are
encouraged to participate in extended learning experiences such as career and
technical student organizations and other leadership or extracurricular
organizations.
(5) Statements that
contain the word "including" reference content that must be mastered, while
those containing the phrase "such as" are intended as possible illustrative
examples.
(c) Knowledge and skills.
(1) The student demonstrates
professional standards/employability skills as required by business and
industry. The student is expected to:
(A)
explain the role of an employee in the construction industry;
(B) apply critical-thinking skills;
(C) demonstrate the ability to solve problems
using critical-thinking skills;
(D)
demonstrate knowledge of basic computer systems;
(E) explain common uses for computers in the
construction industry;
(F) define
effective relationship skills; and
(G) recognize workplace issues such as sexual
harassment, stress, and substance abuse.
(2) The student understands that safe working
standards are imperative in the classroom and in the field. The student is
expected to:
(A) explain the idea of a safety
culture;
(B) explain the importance
of a safety culture in the construction crafts;
(C) explain the role of Occupational Safety
and Health Administration (OSHA) in job-site safety;
(D) explain fall protection, ladder safety,
stair safety, and scaffold safety procedures;
(E) explain the importance of hazard
communication (HazCom);
(F) explain
the importance of Safety Data Sheets (SDS);
(G) explain OSHA's General Duty
Clause;
(H) explain OSHA 1926 CFR
Subpart C;
(I) identify causes of
accidents;
(J) identify impacts of
accident costs;
(K) identify
struck-by hazards;
(L) identify
caught-in-between hazards;
(M)
identify other construction hazards on the jobsite, including hazardous
material exposures, environmental elements, welding and cutting hazards,
confined spaces, and fires;
(N)
define safe work procedures around electrical hazards;
(O) define hazard recognition;
(P) define risk assessment techniques;
and
(Q) demonstrate the use and
care of appropriate personal protective equipment, including safety goggles and
glasses, hard hats, gloves, safety harnesses, and safety shoes.
(3) The student identifies various
opportunities in the field of carpentry and the characteristics a carpenter
should possess. The student is expected to:
(A) identify job opportunities and their
accompanying job duties such as carpentry, building maintenance supervisor,
architect, and engineer; and
(B)
research careers along with the education, job skills, and experience required
to achieve them.
(4) The
student gains knowledge about building materials used in the construction
industry. The student is expected to:
(A)
identify various types of building materials and their uses;
(B) state the uses of various types of
hardwoods and softwoods;
(C)
identify the different grades and markings of wood building
materials;
(D) describe the proper
method of storing and handling building materials;
(E) state the uses of various types of
engineered lumber;
(F) calculate
the quantities of lumber and wood products using industry-standard methods;
and
(G) describe the fasteners,
anchors, and adhesives used in construction work and explain their
uses.
(5) The student
applies the proper and safe use of hand and power tools associated with
carpentry. The student is expected to:
(A)
identify the hand tools commonly used by carpenters and describe their
uses;
(B) use hand tools in a safe
and appropriate manner;
(C) state
the general safety rules for operating all power tools, regardless of
type;
(D) identify the portable
power tools commonly used by carpenters and describe their uses; and
(E) use portable power tools in a safe and
appropriate manner.
(6)
The student interprets architectural and engineering working drawings and
specifications. The student is expected to:
(A) describe the types of drawings usually
included in a set of plans and list the information found on each
type;
(B) identify the different
types of lines used on construction drawings;
(C) identify selected architectural symbols
commonly used to represent materials on plans;
(D) identify selected electrical, mechanical,
and plumbing symbols commonly used on plans;
(E) identify selected abbreviations commonly
used on plans;
(F) read and
interpret plans, elevations, schedules, sections, and details contained in
basic construction drawings;
(G)
state the purpose of written specifications;
(H) identify and describe the parts of a
specification; and
(I) demonstrate
or describe how to perform a quantity takeoff for materials.
(7) The student gains knowledge of
wood framing and the layout and construction of wood-framed floor systems using
common and engineered lumber. The student is expected to:
(A) identify the different types of framing
systems;
(B) read and interpret
drawings and specifications to determine floor system requirements;
(C) identify floor and sill framing and
support members;
(D) name the
methods used to fasten sills to the foundation;
(E) select the proper girder or beam size
from a list of available girders or beams given specific floor load and span
data;
(F) list and recognize
different types of bridging;
(G)
list and recognize different types of flooring materials;
(H) explain the purposes of subflooring and
underlayment;
(I) select the
appropriate fasteners to be used in various floor framing systems;
(J) estimate the amount of material needed to
frame a floor assembly;
(K) lay out
and construct a floor assembly;
(L)
install bridging;
(M) install
joists for a cantilever-floor;
(N)
install a subfloor using butt-joint plywood or oriented strand board panels;
and
(O) install a single floor
system using tongue-and-groove (T&G) plywood or oriented strand board (OSB)
panels.
(8) The student
knows how to lay out and frame walls and ceilings, rough-in door and window
openings, construct corners and partition Ts, brace walls and ceilings, and
apply sheathing. The student is expected to:
(A) identify the components of a wall and
ceiling layout;
(B) describe the
procedure for laying out a wood frame wall, including the installation of
plates, corner posts, door and window openings, partition Ts, bracings, and
firestops;
(C) describe the correct
procedure for assembling and erecting an exterior wall;
(D) identify the common materials and methods
used for installing sheathing on walls;
(E) lay out, assemble, erect, and brace
exterior walls for a frame building;
(F) describe wall framing techniques used in
masonry construction;
(G) explain
the use of metal studs in wall framing;
(H) cut and install ceiling joists on a wood
frame building; and
(I) estimate
the materials required for frame walls and ceilings.
(9) The student gains knowledge of various
types of framed roofs and how to frame these roofs using both stick-build and
truss-build systems. The student is expected to:
(A) demonstrate an understanding of the terms
associated with roof framing;
(B)
identify the roof framing members used in gable and hip roofs;
(C) identify the methods used to calculate
the length of a rafter;
(D)
identify the various types of trusses used in roof framing;
(E) use a framing square, speed square, and
calculator in laying out a roof;
(F) identify various types of sheathing used
in roof construction;
(G) frame a
gable roof with vent openings;
(H)
erect a gable roof using trusses;
(I) frame a roof opening; and
(J) estimate the materials used for framing
and sheathing a roof.
(10) The student knows the ingredients of
concrete, various types of concrete, and methods to mix concrete. The student
is expected to:
(A) identify the properties
of cement;
(B) describe the
composition of concrete;
(C)
perform volume estimates for concrete;
(D) identify types of concrete reinforcement
materials and describe their uses;
(E) identify various types of footings and
explain their uses;
(F) identify
the parts of various types of concrete forms;
(G) explain the safety procedures associated
with the construction and use of concrete forms; and
(H) erect, plumb, and brace a simple concrete
form with reinforcement.
(11) The student gains knowledge of various
types of windows, skylights, and exterior doors. The student is expected to:
(A) identify various types of fixed, sliding,
and swinging windows;
(B) identify
the parts of a window installation;
(C) state the requirements for proper window
installation;
(D) install a
pre-hung window;
(E) identify the
common types of exterior doors and explain how they are constructed;
(F) identify the parts of a door
installation;
(G) identify types of
thresholds used with exterior doors;
(H) install a pre-hung exterior
door;
(I) identify the various
types of locksets used on exterior doors and explain how the locksets are
installed;
(J) install a lockset;
and
(K) identify and explain the
use and installation of various door and window hardware, including security
hinges, keepers, deadbolts, and peep holes.
(12) The student is introduced to various
types of stairs and the common building code requirements related to stairs.
The student is expected to:
(A) identify the
various types of stairs;
(B)
identify the various parts of stairs;
(C) identify the materials used in the
construction of stairs;
(D)
interpret construction drawings of stairs;
(E) calculate the total rise, number and size
of risers, and the number and size of treads required for a given
stairway;
(F) lay out and cut
stringers, risers, and treads; and
(G) build a small stair unit with a temporary
handrail.
Disclaimer: These regulations may not be the most recent version. Texas may have more current or accurate information. We make no warranties or guarantees about the accuracy, completeness, or adequacy of the information contained on this site or the information linked to on the state site. Please check official sources.
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