100 general provisions

Furnish a certification to the Laboratory showing the following:

A. The weight of rubber compound blended with the emulsion.

B. The weight of SS-1 or SS-1h emulsion blended with the rubber compound.

C. The Laboratory Report Number and/or the approved Notice of Shipment Number of the SS-1 or SS-1h emulsion.

D. The certified lot or batch number of the rubber compound.

E. The percent of asphalt in the emulsion residue by distillation.

F. The percent of rubber solids in rubber compound.

G. The percent of rubber solids in the mixture of asphalt residue by distillation and rubber solids.

Determine the weight of the rubber compound to be added to a designated weight of SS-1 or SS-1h emulsion to provide the percent of rubber solids in the mixture of asphalt residue by distillation and rubber solids specified herein using the following formula:

where:

Provide a rubber compound according to the following:

A. Rubber compound:

Total rubber solids, % by weight (Certification) 49+

Ash, % of total rubber solids (ASTM D 297) 3.5-
B. Combination of rubber compound with reference asphalt, mixed according to Supplement 1012.02:

Flow, cm 5-

Softening point, °C raise from

reference asphalt, ASTM D 36 12+

Penetration @ 77 °F (25 °C)., 100 g, 5 sec.,

mm/10 drop from reference asphalt, ASTM D 5 10+

Viscosity, Brookfield units, Model RVF,

spindle No. 7 @ 10 RPM @ 94 °C * 175,000+

Toughness inch-pounds (Nm) 150+ (17+)

Tenacity, inch-pounds (Nm) 90+ (10+)

Peak load, pounds (N) 65+ (289+)

Elongation, inches (mm) 20+ (500+)

Ductility @ 39 °F (4 °C), 1 cm/min, ASTM D 113 150+

* Take the reading 60 seconds after spindle is actuated.

C. Mixture of the rubber compound with the reference asphalt and reference aggregate:

Dispersion of rubber, number

of remaining black rubbery

particles visible to the naked eye None

Resistance to flexure fatigue,

number of flexural units 1500+

Notes:

(b) CRS-2P, test within 20 days of shipment.

(c) HFRS-2P, test within 20 days of shipment.

(d) Maximum of 374 ºF (190 ºC) held for 15 minutes.

(e) Straight molds. Hold at test temperature for 90 minutes. Place in ductilometer and elongate 10 cm at 5 cm/min. Hold for 5 minutes and cut. After 1 hour retract the broken ends to touch and note elongation in cm (X). Percent Recovery = ((10-X)/10) x 100.

(f) SBR

Length 0.25 0.02 inch (6.35 0.51mm)

Crimps; ASTM D 3937 None

Tensile str, min. ASTM D2256* 70,000 psi (483 Mpa)

Specific gravity 1.32 to 1.40

Minimum melting temperature 475 º F (256 º C)

Ignition temperature 1000 º F (538 º C) min.
* This data must be obtained prior to cutting the fibers.
The fiber and fiber manufacturer must be on the Qualified Products List.

Combine materials so the fibers are a minimum of 5.0 percent by total weight of the asphalt binder. Ensure combined materials are according to the following properties:

Strength (at break) at 72 º F (22 º C) 350 psi (2.4 MPa) min.

at 0 º F (-18 º C) 500 psi (3.5 MPa) min.

Elongation (at break) at 72 º F (22 º C) 50 percent min.

at 0 º F (-18 º C) 20 percent min.

Length, 0.390.08 inch (9.91 2.0 mm)

Crimps; ASTM D 3937 None

Tensile strength, min, ASTM D 2256* 40,000 psi (276 MPa)

Specific gravity 0.910.04

Minimum melting point 320 ⁰ F (160 ⁰ C)

The fiber and fiber manufacturer must be on the Qualified Products List.

Combine materials so the fibers are a minimum of 7.0 percent by total weight of the asphalt binder. Ensure combined materials are according to the following properties:

Strength (at break) at 72 º F (22 º C) 350 psi (2.4 MPa) min.

at 0 º F (-18 º C) 500 psi (3.5 MPa) min.

Elongation (at break) at 72 º F (22 º C) 50 percent min.

at 0 º F (-18 º C) 20 percent min.
D. Type IV Crack Sealant. Provide a prepackaged, preapproved mixture of modified binder according to the following properties and minimum 2.0 percent polyester fibers (recycled fibers not permitted) according to the following properties. Place sealant with a manufacturer’s representative for the fiber binder on site to ensure proper application and conditions.
Modified binder:
Cone penetration, 77 ⁰ F(25 ⁰ C) 50-90

Flow, 140 ⁰ F (60 ⁰ C) 1.0 cm max

Resilience, 77 ⁰ F (25 ⁰ C) 25-60 percent

Ductility, 77 ⁰ F (25 ⁰ C) 40 cm min

Bond, 0 ⁰ F (-18 ⁰ C), 100 percent ext. Pass 5 cycles

Impact, 0 ⁰ F (-18 ⁰ C) Pass

Compression recovery 0.40 min

Recommended pour temperature 380 ⁰ F (193 ⁰ C)

Safe heating temperature 410 ⁰ F (210 ⁰ C)
Polyester fiber properties and fiber approval: Same as for Type II crack sealant.

Fiber binder properties:

Softening point 190 ⁰ F (88 ⁰ C)

Viscosity, 400⁰ F(225 ⁰ C) 3000 cp min

Cone penetration, 77 ⁰ F(25 ⁰ C) 25-45

Workability Capable of being melted and applied through a pressure feed, indirect heated and agitated melter

Flexibility* Pass

1703 AGGREGATE

The following abbreviations apply:

CCS- Crushed Carbonate Stone.

ACBFS- Air Cooled Blast Furnace Slag

GS- Granulated Slag

RACP – Reclaimed Asphalt Concrete Pavement

RPCC- Recycled Portland Cement Concrete

OH- Open Hearth Slag

EAF- Electric Arc Furnace Slag

BOF- Basic Oxygen Furnace Slag

PCS – Petroleum Contaminated Soil

A. Soundness. When the major portion of the unsound material in a coarse aggregate acquires a mud-like condition when tested for soundness, ensure that the maximum loss for all uses is 5 percent.

B. Stockpiles. Use stockpiling and loading methods that permit ready identification of the aggregates and to minimize segregation. Clean the sites for stockpiles before storing materials. Do not remove aggregates from stockpiles within 1 foot (0.3 m) of the ground until final cleanup of the work. Do not use material that has become mixed with foreign matter, wood or other size or grades of aggregates.

Handle aggregates in such a manner that the moisture content is reasonably uniform for each day’s run.

Amount finer than No. 200 (75 m) sieve S1004

Clay lumps S1017

Coal and lignite AASHTO T 113

Crushed pieces ASTM D 5821

Deleterious materials S1029

Effect of organic impurities on

strength of mortar AASHTO T 71

Liquid limit AASHTO T 89

Percent of wear, Los Angeles

abrasion test AASHTO T 96 or ASTM C 535

Plasticity index AASHTO T 90

Sieve analysis S1004, S1005

Sieve analysis of mineral filler AASHTO T 37

Sodium sulfate soundness test,

5 cycle AASHTO T104

Specific Gravity and percent absorption

for fine and coarse aggregate S1031

Unit weight AASHTO T 19

Light weight chert in aggregates AASHTO T 113

Sand equivalent AASHTO T 176

Uncompacted void content AASHTO T 304

Flat and elongated ASTM D 4791

Rapid freezing and thawing ASTM C 666, Procedure B

Insoluble residue of carbonate

aggregates ASTM D 3042

Compaction testing of Unbound Materials S1015

In place gradation sampling S1090

Sulphur leachate test S1027

Soundness of aggregate by freezing

and thawing AASHTO T 103

Micro-Deval……………………………..AASHTO T 327

Silicon Dioxide……………………………...ASTM C 146

Sodium sulfate soundness test,

Rock slabs………………………………ASTM D 5240
E. Steel Slag Aggregate. Provide open-hearth (OH), basic oxygen furnace (BOF,) and electric arc furnace (EAF) steel slag aggregate (known as steel slag) according to the following requirements when 703.04 aggregate for asphalt concrete base or when any 703.05 aggregate is specified.

Supply all steel slag from sources according to Supplement 1071. Furnish steel slag to a size meeting the specified grading requirements. Provide steel slag aggregate that meets the specified coarse or fine aggregate quality requirements. Ensure that measurement of soft pieces includes soft lime, lime oxide, or magnesia agglomerations or any foreign materials prone to rapid disintegration under construction processing and weathering conditions. Ensure that additional testing beyond those listed are performed or required any time poor quality steel slag is suspected due to visual inspection, testing, or field performance problems.

For every shipment of steel slag aggregate to the Contractor, provide a letter of certification covering the steel slag in the shipment to the Engineer from the processor and copies of quality control records from the processor (according to Supplement 1071). Ensure that the letter of certification documents that steel slag production and processing or slag by product stockpile retrieval and processing was according to Supplement 1071. Failure to follow the processor QC plan or continued problems with performance recognized by the Laboratory attributable to steel slag is cause for limiting steel slag use from that processor.

OH, BOF, or EAF slag is not permitted for coarse or fine aggregate (virgin or recycled) used in any surface course mix or any mix used as a surface course according to 703.05.